Diabetes (db/db) Mutation-Induced Ovarian Involution: Progressive Hypercytolipidemia

Ovarian atrophy and reproductive tract incompetence are recognized consequences of the progressive expression of the overt, diabetes-obesity syndrome (DOS) in C57BL/KsJ (db/db) mutant mice. The present studies evaluated the progressive changes in ovarian cytoarchitecture, endocrine expression, and reproductive tract cytolipidemic parameters that promote reproductive failure and ovarian involution during the pre-onset, initial, progressive, and chronic expression stages of the DOS. Paired littermate control (normal: +/?) and diabetic (mutant: db/db) C57BL/KsJ females were selected for analysis of ovarian parameters at 2 weeks (pre-onset expression of DOS), 4 weeks (initial DOS expression), 8 weeks (progressive DOS: hyperglycemic/lipidemic), and 16 weeks (overt/chronic DOS expression) of age. All 4- to 16-week-old (db/db) groups were obese, hyperglycemic, and hyperinsulinemic as compared with age-matched (+/?) controls. Prior to phenotypic expression of the DOS (2 week groups), ovarian interstitial cytolipidemia characterized the perifollicular and cortical regions of db/db tissue samples relative to +/? indices, while comparable body weight, blood glucose, as well as serum insulin and ovarian steroid hormone concentrations characterized both the +/? and db/db groups. Overt DOS expression in the 4-week-old db/db groups was characterized by body obesity, systemic hyperglycemia-hyperinsulinemia, and extensive hypercytolipidemia of ovarian folliculothecal compartments, as well as enhanced tissue lipase activities. By 8 weeks of age, progressive hypercytolipidemia characterized interstitial, thecal, and follicular granulosa cell layers of db/db tissue samples concurrent with suppressed ovarian steroid hormone production, enhanced lipid sequestration, and exacerbation of systemic hyperglycemia/insulinemia. By 16 weeks of age, the chronic-DOS was characterized by extensive ovarian follicular involution, cortical perivascular hyperlipidemic infiltration, thecal cell atrophy, and follicular granulosa lipid imbibition. These data indicate that db/db mutation-induced ovarian structural and functional involution is a direct reflection of the cellular metabolic shift towards lipogenesis, indicated by the progressive cytoarchitectural transformation into adipocyte-like entities. The cytological indications of cellular metabolic compromise, which precede the phenotypic expression of the DOS indices, suggests that correction of these abnormal shifts in ovarian endocrine and cellular metabolism may restore, delay, or prevent the further compromise of ovarian function by db/db mutation expression.

Hypercytolipidemia-induced nuclear lipoapoptosis: cytochemical analysis and integrated review of hypogonadal, diabetes-obesity syndrome-induced female reproductive axis disruption

Expression of the diabetes (db/db) mutation (i.e., leptin receptor defect) in C57BL/KsJ mice results in the functional suppression of the female pituitary-gonadal axis accompanied by premature utero-ovarian lipocytoatrophy. The current studies define the cytostructural, metabolic and endocrine disturbances associated with hypercytolipidemia and coincident nuclear lipoapoptosis following expression of the db/db-mutation. Adult, female C57BL/KsJ control (+/+ and +/? genotypes) and db/db mutant littermates were monitored for systemic alterations in blood glucose, insulin, luteinizing hormone (LH) and 17-B-estradiol (E2) concentrations associated with db/db-enhanced cytolipid depositions and TUNEL-labeled 3'-DNA fragmentation indexed nuclear lipoapoptosis. Obesity, hyperglycemia and hyperinsulinemia, in addition to depressed LH and E2 concentrations, characterized all db/db-mutants relative to control indices. Structural and cytochemical analysis of basophilic gonadotroph cells, ovarian follicular granulosa cells and uterine endometrial epithelial layers indicated that db/db mutants demonstrated prominent hypercytolipidemia relative to control cytoarchitecture profiles. Vasolipidemia and interstitial cytoadiposity were prominent in all db/db tissue compartments. In each affected cell type within the db/db pituitary-reproductive tract axis, hypercytolipidemia was localized with pronounced nuclear lipo-infiltration and 3'-DNA TUNEL-labeled fragmentation. These data indicate that coincident cytostructural, endocrine and metabolic disturbances associated with hypogonadal pituitary-reproductive tract hypercytolipidemia are functional manifestations of the expressed diabetes-obesity syndrome in db/db-mutants. The progressive vaso-, interstitial-, and cyto-lipidemic alterations in cytoarchitecture correlated with the coincident nuclear lipoapoptotic dissolution and pronounced organo-involution, alterations which contributed to the functional disruption of the pituitary-hypogonadal axis in C57BL/KsJ-db/db mice.

Influences of diabetes (db/db), obese (ob/ob) and dystrophic (dy/dy) genotype mutations on hind limb bone maturation: a morphometric, radiological and cytochemical indices analysis

The influences of single-gene missense mutations expressing diabetes (db/db), obese (ob/ob) or dystrophia (dy/dy) dysregulated metabolic syndromes on hind limb bone maturation and cytodevelopment in C57BL/KsJ mice were evaluated by radiological, macro- and cytomorphometric analysis of the resulting variances in os coxae, femur and tibia osteodevelopment indices relative to control parameters between 8 and 16 weeks of age. Associated with obesity and hyperglycaemic/hyperinsulinaemic states, both db/db and ob/ob mutants demonstrated significant suppression of hind limb maturation (length) and cytodensity indices relative to control growth parameters. By contrast, skeletal growth suppression induced by dy/dy mutation expression was associated with lean body mass and normoglycaemic/hypoinsulinaemic systemic endometabolic indices. In both db/db and ob/ob mutation syndromes, osteovascular, -interstitial and -cytolipidaemia were prominent cytochemical aberrations of the osteopaenic states relative to the dyslipidaemia/fibrodysplasia characteristic of dy/dy osteomaturation. Between 8 and 16 weeks of age, both ob/ob and db/db groups demonstrated extensive cortical interstitial (laminal) osteolipidaemia and suppressed cytodensities compared to control indices. These data demonstrate that the abnormal hyperglycaemic/hyperinsulinaemic endometabolic states associated with the expression of db/db and ob/ob genomutations promote extensive lipidaemia-induced osteopaenia, compromising hind limb osteomaturation and cytodensity indices, as compared to the hyperfibritic osteopaenia characteristic of dy/dy mutation syndromes. Recognized therapeutic modulation of the hypercytolipidaemic component of diabetes-obesity syndromes may prove to be effective towards amelioration of the deleterious influences of these expressed hyperglycaemic, dysregulated lipometabolic conditions on osteomaturation and cytodevelopment.

Hypercytolipidemia-induced cellular lipoapoptosis: Cytostructural and endometabolic basis of progressive organo-involution following expression of diabetes (db/db) and obese (ob/ob) mutation syndromes

Onset expression of Type 2 (NIDDM) diabetes and obesity metabolic syndromes (DOS) are characterized by premature, progressive cytoatrophy and organo-involution induced by dysregulated cellular gluco- and lipo-metabolic cascades. The consequential systemic, interstitial and intracellular hyperlipidemia disrupts normal cytointegrity and metabolic responsivity to the established hypercaloric pericellular environments. The sequential cytostructural, metabolic and endocrine disturbances associated with the development of progressive DOS-associated hypercytolipidemia compromises cellular metabolic response cascades and promotes cytochemical disturbances which culminate with nuclear lipoapoptosis and cytoatrophy. The dramatic alterations in interstitial glucose and lipid (free fatty acids/triglycerides) concentrations are recognized to influence interstitial and cytoplasmic microchemical environments, which markedly alter cellular nutrient diffusion and active trans-membrane flux rates. The progressive exacerbation of interstitial and cytoplasmic lipid imbibition has been demonstrated to be associated with DNA fragmentation by lipo-infiltration into the chromatin matrix, inducing structural disruption and physical dissolution, indexed as nuclear lipoapoptosis. Therapeutic reduction of the severity of hypercytolipidemia-induced structural and cytochemical compromise promotes the restoration of homeostatic metabolic support for normalized cytostructural indices and supportive cellular gluco- and lipo-metabolic cascades. The re-establishment of a homeostatic interstitial microenvironment moderates the severity of cytolipidemic compromise within affected cell types, reduces nuclear lipo-infiltration and DNA lipo-dissolution, resulting in the preservation of cytostructural integrity. Through the therapeutic restoration of extra- and intra-cellular microchemical environments in genetically dysregulated metabolic syndrome models, the coincident cytochemical, endocrine and metabolic disturbances associated with progressive hypercytolipidemia, resulting from the expressed systemic hypercaloric environmental and hepato-pancreatic endometabolic disturbances which characterize Type 2 (NIDDM) diabetes-obesity and metabolic (X) syndromes, may be ameliorated.

Influences of obese (ob/ob) and diabetes (db/db) genotype mutations on lumber vertebral radiological and morphometric indices: skeletal deformation associated with dysregulated systemic glucometabolism

Background

Both diabetes and obesity syndromes are recognized to promote lumbar vertebral instability, premature osteodegeneration, exacerbate progressive osteoporosis and increase the propensity towards vertebral degeneration, instability and deformation in humans.

Methods

The influences of single-gene missense mutations, expressing either diabetes (db/db) or obese (ob/ob) metabolic syndromes on vertebral maturation and development in C57BL/KsJ mice were evaluated by radiological and macro-morphometric analysis of the resulting variances in osteodevelopment indices relative to control parameters between 8 and 16 weeks of age (syndrome onset @ 4 weeks), and the influences of low-dose 17-B-estradiol therapy on vertebral growth expression evaluated.

Results

Associated with the indicative genotypic obesity and hyper-glycemic/-insulinemic states, both db/db and ob/ob mutants demonstrated a significant (P ≤ 0.05) elongation of total lumbar vertebrae column (VC) regional length, and individual lumbar vertebrae (LV1-5) lengths, relative to control VC and LV parameters. In contrast, LV1-5 width indices were suppressed in db/db and ob/ob mutants relative to control LV growth rates. Between 8 and 16 weeks of age, the suppressed LV1-5 width indices were sustained in both genotype mutant groups relative to control osteomaturation rates. The severity of LV1-5 width osteosuppression correlated with the severe systemic hyperglycemic and hypertriglyceridemic conditions sustained in ob/ob and db/db mutants. Low-dose 17-B-estradiol therapy (E2-HRx: 1.0 ug/ 0.1 ml oil s.c/3.5 days), initiated at 4 weeks of age (i.e., initial onset phase of db/db and ob/ob expressions) re-established control LV 1–5 width indices without influencing VC or LV lengths in db/db groups.

Conclusion

These data demonstrate that the abnormal systemic endometabolic states associated with the expression of db/db and ob/ob genomutation syndromes suppress LV 1–5 width osteomaturation rates, but enhanced development related VC and LV length expression, relative to control indices in a progressive manner similar to recognized human metabolic syndrome conditions. Therapeutic E2 modulation of the hyperglycemic component of diabetes-obesity syndrome protected the regional LV from the mutation-induced osteopenic width-growth suppression. These data suggest that these genotype mutation models may prove valuable for the evaluation of therapeutic methodologies suitable for the treatment of human diabetes- or obesity-influenced, LV degeneration-linked human conditions, which demonstrate amelioration from conventional replacement therapies following diagnosis of systemic syndrome-induced LV osteomaturation-associated deformations.

Early signs of neuronal apoptosis in the substantia nigra pars compacta of the progressive neurodegenerative mouse 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine/probenecid model of Parkinson’s disease

Parkinson's disease is associated with a progressive loss of substantia nigra pars compacta dopaminergic neurons. The cellular and molecular mechanisms underlying Parkinson's disease neurodegeneration have not been fully determined. Clinical investigations and subacute in vivo studies using the neurotoxin, 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine have generated some observations suggesting that apoptosis is involved in neurodegeneration; however, this view remains equivocal. In this study, the substantia nigra pars compacta neurodegenerative process was examined in the chronic mouse 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine/probenecid model of Parkinson's disease treated with 10 doses of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (25 mg/kg) and probenecid (250 mg/kg) over five weeks. One day after chronic treatment, numerous terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end labeling-positive cells were detected specifically in the substantia nigra pars compacta displaying shrunken volume, chromatin condensation, and DNA fragmentation. The number of apoptotic cells declined over time. No terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end labeling-positive cells were found in untreated or probenecid-treated control animals. Cytomorphometric analysis of substantia nigra pars compacta nuclear loci revealed eccentric nucleoli dislocation and vesicular degranulation in all of the apoptotic neurons for the mouse 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine/probenecid model for Parkinson's disease. The terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end labeling-positive cells phenotypically showed neuronal origin (NeuN-positive) with a loss of tyrosine hydroxylase immunoreactivity. While the terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end labeling-positive cells were not co-localized with astroglial (GFAP-positive) cells, some apoptotic cells were clearly associated with the activated microglial (macrophage antigen complex-1 and isolectin B(4)-positive) cells suggesting an active process of dead cell removal. In the one-day and seven-day post-treated mouse 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine/probenecid model for Parkinson's disease, marked depression of tyrosine hydroxylase immunoreactivity in the substantia nigra pars compacta and striatum was observed, which was correlated with significant reductions of striatal dopamine content and uptake. These results suggest that initial neuronal apoptosis and morphological changes are involved, at least in part, in the chronic neurodegeneration of mouse 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine/probenecid model for Parkinson's disease.

Glycyl-glutamine in nucleus accumbens reduces ethanol intake in alcohol preferring (P) rats

Opioid peptides and glycyl-glutamine (Gly-Gln) have been implicated in the control of ethanol consumption. A recognized beta-endorphin cleavage product, Gly-Gln, inhibits voluntary alcohol consumption when microinjected into the nucleus accumbens (AcbSh) of P rats. To evaluate the site-specific efficacy of Gly-Gln on ethanol consumption following AcbSh application, ethanol preferring (P) rats were allowed to establish individual baseline ethanol/water consumption utilizing a voluntary self-administration paradigm. Subsequent to baseline ethanol consumption being established, bilateral guide cannulae were stereotaxically implanted +1 mm dorsal to the AcbSh for subsequent Gly-Gln (100 nmol/microl) or saline vehicle (1 microl) injections. Alcohol intake, body weight, and water intake were measured at 24 h post-injection intervals. Unilateral Gly-Gln injections reduced ethanol consumption 35.6% (P < 0.05) from pre-established baseline consumption (6.24 +/- 0.64 g/kg to 4.06 +/- 0.28 g/kg). Bilateral Gly-Gln injections further reduced consumption to 51.9% (6.4 +/- 1.0 g/kg to 3.08 +/- 0.65 g/kg at 24 h (P < 0.01) below established baseline values within 24 h without significant changes in body weight or water consumption. Also, the amino acid constituents of the dipeptide had no influence on ethanol consumption behavior; however, Gly-Gln efficacy was shown to be comparable to central beta-endorphin-(1-27) or intraperitoneal (i.p.) naltrexone-induced suppression of ethanol intake. These data indicate that the AcbSh exhibits a site-specific sensitivity to the suppressive actions of Gly-Gln or beta-endorphin-(1-27) injections that modulate voluntary ethanol consumption in P rats. These findings support the broader concept that select forebrain opioid-responsive neural sites may influence the development or expression of alcohol abuse syndromes in animal models or humans.

Gonadal steroid modulation of the diabetes (db/db) mutation-induced hyperlipometabolic, hypogonadal syndrome: Restoration of female reproductive tract cytochemical and structural indices

The gonadal steroids, 17-B-estradiol (E2) and progesterone (P), are recognized to stimulate cellular gluco- and lipo-metabolic compensatory cascades which counteract the deleterious influences of the diabetes (db/db) mutation (i.e., leptin membrane receptor defect) which promotes a progressive, hypercytolipidemia-induced premature involution of the female reproductive tract (FRT). The current studies define the therapeutic efficacy of E2 (1 microg/3.5 days) and P (1 mg/3.5 days) treatments (HRx) on utero-ovarian structural and cytochemical (gluco-/lipo-metabolic) maintenance, and the prevention of premature nuclear apoptosis and cytostructural disruption, following the expression of progressive db/db-induced hypercytolipidemia. Control (normal: +/+ and +/?) and diabetes (db/db) genotype groups of 8-week-old (i.e., overt phase of the db/db-hypogonadal syndrome) C57BL/KsJ mice were prepared for high resolution (HRLM) cytochemical and transmission electron (TEM) microscopic analysis of cytolipidemia and nuclear apoptosis (TUNEL-labeled 3'-DNA fragmentation) indices from uterine and ovarian secondary (early antral) follicular tissue samples. Compared to HRx controls, the db/db mutation induced a dramatic increase in cytolipid vacuole volume and density within all ovarian follicular granulosa cells (GC) and uterine endometrial epithelial (UEE) layers. The co-localization of nuclear apoptotic 3'-DNA fragments within identified hyperlipidemic granulosa cells was coincident with the cytochemical and ultrastructural identification of lipid penetration through the nuclear envelope in db/db mutants. P-HRx moderated the severity of db/db-induced GC and UEE hypercytolipidemia, reducing the cytodensity of lipid vacuole accumulations and maintaining cytoplasmic organelle structure, organization, and nuclear membrane integrity. In contrast, E2-HRx resulted in a dramatic reduction in db/db cytolipidemia in both ovarian GC and UEE tissue compartments. Following E2-HRx, UEE cells demonstrated non-pycnotic nuclear profiles, reduced nuclear apoptosis TUNEL-labeling, increased cytoplasmic organelle density profiles and a pronounced cytoplasmic cisternal expansion indicative of active cellular nutrient/metabolite trafficking. Ovarian follicular GC populations demonstrated minimal cytolipidemia, a restored cytoarchitecture with prominent organelle compartments and reduced TUNEL-indexed nuclear lipoapoptosis. These results are the first cytochemical and ultrastructural indications that P- and E2-HRx compensate for the genetic db/db mutation-induced metabolic disturbances, which promote utero-ovarian hypercytolipidemia and the coincident nuclear lipoapoptosis culminating in the expressed diabetes hypogonadal syndrome. The capability of P-HRx to moderate the severity of utero-ovarian involution in db/db mutants, and of E2-HRx to restore and maintain viable GC and UEE cyto-chemical and -structural indices under normoglycemic conditions, suggests that chronic, low-dose cyclic P- and E2-HRx stimulate cellular gluco- and lipo-metabolic cascades which compensate for the lack of leptin signaling in these single-gene, obese-Type II diabetic mutants. The compensatory endometabolic maintenance of utero-ovarian cellular and nuclear architecture suggests that the gluco- and lipo-metabolic disregulation may be therapeutically prevented or reversed, restoring reproductive tract cytointegrity and function, reducing the manifestation of hypogonadal reproductive sterility and db/db compromise of the female reproductive tract.

Cytochemical analysis of pancreatic islet lipoapoptosis: hyperlipidemia-induced cytoinvolution following expression of the diabetes (db/db) mutation

The diabetes (db/db) genotype mutation induces a hyperglycemic-hyperinsulinemic endometabolic state in C57BL/KsJ mice, manifesting a type II NIDDM diabetes-obesity syndrome (DOS) associated with intrinsic leptin receptor expression defects. The severity of the DOS-induced premature pancreatic dysfunction and cytoatrophic involution has been linked to the severity of hypercytolipidemia which develops in pancreatic islets following systemic lipoidosis. The current studies define the cytochemical changes associated with pancreatic islet and acinar vesicular degranulation (deproteinization), cytoinvolution and B-cell dysfunction relative to the onset of cellular (nuclear DNA fragmentation) apoptosis in 20- to 26-week-old chronic db/db mutants relative to control (+/?) indices. The db/db mutation induced dramatic increases in body weights, blood glucose as well as serum and tissue triglyceride concentrations relative to +/? parameters. In contrast, pancreatic tissue weights and insulin concentrations were significantly decreased in db/db groups in association with premature islet cytoatrophy relative to +/? indices. Concurrent elevations in db/db tissue triglyceride concentrations and islet cytolipid depositions accompanied the progressive pancreatic cytoatrophic alterations. Diminished B-cell vesicular (insulin) granulation was pronounced in atrophic pancreatic islets, which were also characterized by hyperplasic acinar cellular intrusion and subsequent proteolytic B-cell dissolution coincident with 3'-DNA fragmentation-indexed (TUNEL-labeled) nuclear apoptosis. The chronic expression of the db/db mutation exacerbated these pancreatic islet B-cell atrophy indices, characterized by insulin vesicular degranulation, suppressed systemic insulin concentrations, invasive hypercytolipidemia, progressive cellular atrophy and hyperplasic acinar proteolytic dissolution, culminating in islet volume/mass reduction and chronic db/db-related pancreatic involution. The results of these studies indicate that pancreatic islet B-cell apoptosis is coincident with the progressive hypercytolipidemia component of the type II DOS promoted by the db/db genotypic mutation. These data suggest that the severity of progressive pancreatic lipoapoptosis disrupts regulatory cellular metabolic cascades, resulting in nuclear fragmentation, organelle dissolution and the subsequent promotion of a nonhomeostatic cytochemical milieu which ultimately renders islet B-cell populations susceptible to acinar proteolytic dissolution and progressive pancreatic involution.

Ovarian follicular lipoapoptosis: structural, cytochemical and metabolic basis of reproductive tract atrophy following expression of the hypogonadal diabetes (db/db) syndrome

The diabetes (db/db) mutation (i.e., leptin membrane receptor defect) promotes a progressive, hypercytolipidemia within ovarian follicular granulosa, thecal and interstitial layers of C57BL/KsJ mice which manifests an infertile, acyclic hypogonadal syndrome. The current studies focus on the structural, cytochemical and gluco-/lipo-metabolic changes which induce cellular lipoapoptosis and the resulting cytostructural disruption of db/db follicular populations, relative to littermate control indices, following the expression of progressive ovarian hypercytolipidemia. Control (normal: +/+ and +/?) and diabetes (db/db) genotype groups were prepared for high resolution light microscopic (HRLM) analysis of cytolipidemia and nuclear apoptosis (TUNEL-labeled 3'-DNA fragmentation) indices and compared to the transmission electron (TEM) microscopic analysis of ovarian follicular samples collected from 8-16-week-old groups. Compared to controls, the db/db mutation induced a dramatic increase in cytolipid vacuole volume and density within all ovarian follicular layers. TEM analysis revealed that the lipid vacuoles initially aggregated along the inner membrane compartments of affected thecal and granulosa cells in response to the interstitial and vaso-lipidemic-hyperglycemic conditions which characterized the ovarian microenvironment of db/db follicles. Progressive cytoplasmic movement of lipid pools into the perinuclear compartment of affected granulosa cells induced nuclear isolation from cytoplasmic organelles that were displaced towards peripheral intracellular compartments. Cytochemical analysis of lipid vacuole accumulations indicated attraction towards, and incorporation within, the nuclear envelope of hyperlipidemic cells. Co-localization of nuclear apoptotic 3'-DNA fragments within identified hyperlipidemic granulosa cells was coincident with the cytochemical and ultrastructural identification of lipid penetration through the nuclear envelope in db/db mutants. These results are the first cytochemical evidence that the lipometabolic disturbances in db/db mutants, which promote hypercytolipidemia-induced premature ovarian involution, are coincident with lipoapoptosis-induced nuclear dissolution within follicular granulosa layers. The lipidemia-induced alterations in cellular and nuclear architecture suggests that the disturbances in glucose and lipid metabolic cascade activities in diabetes (db/db) mutants disrupts follicular cytointegrity, culminating in nuclear disregulation (as indicated by lipoapoptosis) which results in premature reproductive tract organo-involution and manifest reproductive sterility.

Diabetes (db/db) mutation-induced endometrial epithelial lipoapoptosis: ultrastructural and cytochemical analysis of reproductive tract atrophy

BACKGROUND

The diabetes (db/db) mutation in C57BL/KsJ mice promotes a progressive cytolipidemia within the endometrial epithelial (EE) layer of the female reproductive tract which results in premature cellular and organ atrophy. The current studies focus on the ultrastructural and cytochemical changes which promote nuclear apoptosis and cytostructural disruption following the expression of endometrial hypercytolipidemia which promotes diabetes-associated organoinvolution and manifest infertility.

METHODS

Control (normal:+/+) and diabetes (db/db) genotype groups were prepared for high resolution light microscopic analysis of cytolipidemia and nuclear apoptosis (TUNEL-labeled 3'-DNA fragmentation) indices and compared to the transmission electron (TEM) microscopic analysis of endometrial tissue samples collected from 8-16 week-old groups.

RESULTS

Compared to controls, db/db mutation expression induced a dramatic increase in EE cytolipid vacuole volume and density within the epithelial endometrial layer. TEM analysis revealed that cytolipid vacuole accumulations initially aggregated at the baso-polar regions of UEE cells in response to the systemic hyperglycemic/hypertriglyceridemic conditions which characterized the (db/db) groups. Progressive cytoplasmic movement of the lipid pools into perinuclear compartments of affected EE cells induced nuclear isolation from organelles that were displaced towards peripheral cytoplasmic compartments. Cytochemical analysis of lipid vacuole accumulations indicated attraction towards, and incorporation within, the nuclear envelope of hyperlipidemic cells. Co-localization of nuclear apoptotic 3'-DNA fragments within identified hyperlipidemic EE cells was coincident with the cytochemical and ultrastructural identification of lipid penetration through the nuclear envelope in db/db mutants.

CONCLUSION

These results are the first cytochemical indication that the metabolic disturbances in db/db mutants which promote hypercytolipidemia are coincident with lipoapoptosis-induced nuclear dissolution, as denoted by DNA fragmentation analysis. The lipidemia-induced alterations in intracellular organelle and nuclear architectures suggests that the metabolic disturbances in glucose and lipid metabolic cascades in diabetes (db/db) mutants disrupts cytointegrity, culminating in nuclear disregulation (as indicated by lipoapoptosis) and eventual premature reproductive tract organoinvolution and resultant, manifest, reproductive sterility.

Structural, metabolic and endocrine analysis of the diabetes (db/db) hypogonadal syndrome: relationship to hypophyseal hypercytolipidemia

Expression of the diabetes (db/db) mutation in C57BL/KsJ mice results in functional suppression of the female pituitary-gonadal axis accompanied by premature utero-ovarian cytolipoatrophy. Cellular gluco- and lipo-metabolic disturbances promoted by the db/db systemic hyperglycemic-hyperinsulinemic state suppress pituitary gonadotropin release in response to gonadotropin-releasing hormone and gonadal steroid stimulation and results in a hypogonadal-infertility syndrome. Adult female C57BL/KsJ control (+/+ and +/? genotypes) and db/db littermates were monitored for associations in systemic and cellular alterations in luteinizing hormone (LH), follicle-stimulating hormone (FSH), gonadal steroid (binding) levels, and pituitary glucometabolic indices associated with db/db-enhanced lipid imbibition and cytostructural disruption. Obesity, hyperglycemia, and hyperinsulinemia characterized all db/db mutants relative to controls. Serum and pituitary progesterone and estradiol concentrations were suppressed in db/db mutants, in association with serum LH and FSH levels, but not with pituitary LH and FSH concentrations, which were comparable between groups. Pituitary insulin receptor binding and glucose utilization rates were suppressed in db/db groups relative to +/? indices. Structural and cytochemical analysis of anterior (AP), intermediate (IL), and neuro-(NP) hypophyseal lobes demonstrated prominent hypercytolipidemia in db/db mutants relative to controls. Prominent cytolipidemia was localized within well-granulated basophilic gonadotrophs and within IL and NP pituicytes. Vasolipidemia and interstitial cytoadiposity were prominent throughout all db/db pituitary lobes. Thus, disturbances associated with pituitary hypercytolipidemia are functional components of the expressed diabetes-associated hypogonadal syndrome in db/db mutants. Progressive alterations in hypophyseal cytoarchitecture are correlated with suppression of pituitary metabolic and endocrine indices, alterations that contribute to functional disruption of the pituitary-hypogonadal axis in C57BL/KsJ-db/db mice.

Estrogenic restoration of functional pancreatic islet cytoarchitecture in diabetes (db/db) mutant C57BL/KsJ mice: relationship to estradiol localization, systemic glycemia, and persistent hyperinsulinemia

The diabetes (db/db) genotype mutation induces a hyperglycemic-hyperinsulinemic endometabolic state in C57BL/KsJ mice, manifesting a type 2 NIDDM diabetes-obesity syndrome (DOS) in this hyperphagic, leptin receptor (lf) defective model. The severity of the DOS induced by the single gene, homozygous-recessive mutation may be therapeutically moderated by gonadal steroids and pre-steroidal metabolites. The current studies define the estradiol (E2)-modulated phenotypic, systemic, cytochemical, and cellular metabolic responses to db/db mutation expression as compared to littermate control (+/?) indices. The db/db mutation induced dramatic age- and DOS severity-related increases in body weights, blood glucose, and serum insulin concentrations relative to +/? indices between 4-week-old (i.e., initial onset stage of DOS phenotype) and 16-week-old (i.e., chronic stage of DOS) groups. Chronic, low-dose (0.1 microg/3.5 days) E2 treatment (E2-HRx) significantly reduced the obesity mass and blood glucose levels of db/db mutants relative to oil-HRx groups. Similarly, E2-HRx maintained pancreatic glucose utilization rates and pancreatic tissue weights in db/db mutants to near +/? indices. Concurrent amelioration of db/db-enhanced pancreatic lipogenesis and islet hypercytolipidemia occurred following E2-HRx. Pancreatic islet lipo-deposition was markedly reduced in db/db mutants following E2-HRx, and the restoration of islet size and cellular insulin concentrations correlated with beta-cell cytoplasmic regranulation of insulin secretory vesicles. In chronic E2-HRx db/db groups, autoradiographic localization of (3)H-E2 was demonstrated in the nuclear compartments of regranulated, nonhypertrophic islet cell populations, including insulin-containing beta-cells. In chronic E2-HRx db/db mutants, beta-cell insulin granulation was prominent in mildly hypertrophic pancreatic islets, with cytodistribution patterns and concentrations comparable to normal +/? indices. In contrast, E2-HRx maintained the systemic hyperinsulinemia characteristic of oil-HRx db/db mutants. The results of these studies indicate that the severity of the type 2 NIDDM endometabolic syndrome induced by the db/db genotypic mutation may be influenced by E2-HRx, including reduction of the islet hypercytolipidemia and hypertrophic atrophy which are indicators of impending pancreatic involution in this mutant model. The hypercytolipidemia-induced demise of beta-cell cytoarchitecture was reduced by E2-HRx, including the reestablishment of islet beta-cell cytogranulation. These data suggest that the severity of genomic db/db-mutation expression may be modified by E2-HRx, with the gonadal steroid probably acting as a nuclear-specific stimulatory transcriptional modulator of cellular glucometabolic cascades in the absence of leptin-directed homeostatic influences.

Cytochemical Analysis of Pancreatic Islet Hypercytolipidemia following Diabetes (db/db) and Obese (ob/ob) Mutation Expression: Influence of Genomic Background

Both diabetes (db/db) and obese (ob/ob) genotype mutations induce a hyperglycemic-hyperinsulinemic endometabolic state in C57BL mice, manifesting a type II NIDDM diabetes-obesity syndrome (DOS) in these leptin ligand/receptor-deficient models. The severity of the DOS induced by these single gene, homozygous-recessive mutations may be moderated by the background genome on which the mutation is expressed. The current studies define the phenotypic, systemic, cytochemical and cellular metabolic responses to db/db and ob/ob mutation expression when modified by /KsJ (severe DOS expression) or /6 (modified DOS expression) background strain influences as compared to littermate control (+/?) indices. Both db/db and ob/ob mutations induced dramatic increases in body weights, blood glucose and serum insulin concentrations relative to +/? indices when expressed on either the C57BL/KsJ (-/KsJ) or C57BL/6 (-/6) backgrounds. However, the -/KsJ background enhanced the severity of expression of these DOS indices relative to the -/6 strain. Similarly, the -/KsJ genome suppressed cellular glucose uptake rates, pancreatic tissue weights and insulin concentrations in both db/db and ob/ob mutants relative to /6 background strain influences or +/? indices. Concurrent enhancement of tissue and cellular lipogenic metabolism and islet cytolipid depositions were exaggerated when the mutations were expressed on the -/KsJ background relative to the -/6 genome. Pancreatic islet B-cell lipodeposition was markedly enhanced in ob/ob and db/db mutants expressed on either the -/KsJ or -/6 background. In both ob/ob and db/db models, B-cell insulin granulation was prominent in mildly hypertrophic pancreatic islets when the mutations were expressed on the -/6 background. In contrast, the severity of the DOS state expressed on the -/KsJ background resulted in pronounced B-cell atrophy, characterized by insulin degranulation, cellular hypertrophy and hypercytolipidemia associated with tissue involution, in both ob/ob and db/db mutants. Dramatic alterations in tissue norephinephrine (NE) and alpha-1-receptor populations in ob/ob and db/db mutants were exaggerated by the -/KsJ genome as compared to -/6 or control indices. The influences of the -/KsJ genome on the progressive expression of tissue NE counter-regulatory responses to enhanced cytolipidemic indices were inversely related, with cytochemical lipodeposition occurring under conditions of diminished adrenergic responses to the DOS indices. The results of these studies indicate that the severity of the type-II diabetes endometabolic syndrome induced by the ob/ob or db/db genotypic mutations is modified by the existing genome on which the mutations are expressed. These data suggest that the severity of genomic mutation expression may be modified depending on the capability of the background genome to counter-regulate the systemic, cellular or metabolic consequences of these mutations.

Estrogenic stimulation of ovarian follicular maturation in diabetes (db/db) mutant mice: restoration of euglycemia prevents hyperlipidemic cytoatrophy

The diabetes (db/db) mutation (leptin-receptor defect) induces a hyperglycemic-hyperinsulinemic endometabolic environment that promotes hypercytolipidemic ovarian involution in C57BL/KsJ mice, resulting in reproductive sterility and eventual organoatrophy. The effectiveness of low-dose (1.0 microg/sc/3.5 day intervals), 17- beta-estradiol therapy (E2-HRx), initiated prior to expression of the overt diabetes-obesity syndrome (DOS), on preventing female ovarian follicular cytolipid atrophy was evaluated by analysis of cytochemical, endocrine, and tissue lipo-metabolic indices relative to oil-vehicle treated control (+/?) and (db/db) groups. Chronic low-dose E2-HRx moderated DOS-induced trends in (db/db) groups, maintaining lowered body weights, and systemic euglycemia while stimulating ovarian weight indices. E2-HRx prevented the dramatic hypercytolipidemic condition associated with ovarian follicular involution in (db/db) mice, as evidenced by progressive viable follicular maturation, cytomorphometric analysis of tertiary follicular development, and pre-luteinization indices with diminished follicular atresia rates. The coincident stimulation of tissue lipoprotein lipase and acetyl CoA carboxylase activities in (db/db) ovarian compartments, under persistent hyperinsulinemic influences, indicated that E2-HRx effectively moderated both the structural and hyperlipometabolic consequences of DOS from promoting (db/db)-associated reproductive organoatrophy. Thus, the patho-reproductive alterations induced by the (db/db) mutation can be moderated through low-dose steroidal therapy, the efficacy of which is suspected to occur by steroid-specific nuclear transcription or post-insulin receptor modulation of gluco-metabolic cascades in reproductive target cells.

Ultrastructural analysis of progressive endometrial hypercytolipidemia induced by obese (ob/ob) and diabetes (db/db) genotype mutations: structural basis of female reproductive tract involution

The diabetes (db/db) and obese (ob/ob) genotype mutations induce a progressive, hypercytolipidemic condition within the endometrium of the female reproductive tract that promotes sterility and premature organ involution in C57BL/KsJ mice. The current studies focus on the ultrastructural changes that occur within the epithelial and stromal layers of the uterine endometrium during the progressive expression of these mutations, which induce a hyperglycemic-hyperinsulinemic metabolic state and promote tissue cytolipidemia and organoinvolution. Control (normal: +/-), diabetes (db/db) and obese (ob/ob) genotype groups were prepared for high resolution light (LM) and transmission (TEM) microscopic analysis of endometrial tissue samples collected from 4 (young)- to 20 (aged)-week-old mice, allowing for the progressive influences of the mutational aberrations on uterine structure to be evaluated. Compared to controls, both (ob/ob) and (db/db) mutations induced a dramatic increase in endometrial epithelial cytolipid vacuole accumulation, which increased in density between 4 and 20 weeks of age. Lipid vacuoles aggregated at the baso-polar regions of epithelial cells in response to the hyperglycemic-hyperlipidemic conditions typical of both (ob/ob) and (db/db) groups. Progressive cytoplasmic movement of the lipid pools induced a perinuclear isolation from surrounding cytoplasmic organelles. Apical lipid accumulations forced cytoplasmic organelles into peripheral cell compartments and altered the periepithelial stromal cell profile relative to controls. These studies define the progressive, intracellular accumulation of hypercytolipidemic pools which induce a transformation of normal endometrial cell types into adipocyte-like entities. The lipidemia-induced alterations in cell structure disrupt normal tissue continuity and function, culminating in organoinvolution and overt female reproductive sterility.

Cytolipotoxicity-induced involution of the female reproductive tract following expression of obese (ob/ob) and diabetes (db/db) genotype mutations: progressive, hyperlipidemic transformation into adipocytic tissues

Both diabetes (db/db) and obese (ob/ob) single gene mutations induce a progressive, hyperglycemic-hyperinsulinemic endometabolic environment which promotes hypercytolipidemic, utero-ovarian involution in C57BL/KsJ mice. The progressive expression of the induced diabetes-obesity syndrome (DOS) results in female reproductive sterility and eventual organoatrophy. In order to define the intra-cytoplasmic alterations induced by the progressive cytolipidemia on cellular vitality, utero-ovarian tissue samples were collected from both control (+/?) and littermate-matched ob/ob or db/db C57BL/KsJ mice at either 4 weeks (initial-onset DOS phase), 8 weeks (progressive, overt DOS phase), or 16 weeks (chronic-DOS phase) of age for cytolipid distribution analysis. All db/db and ob/ob mutant groups exhibited phenotypic obesity and systemic hyperglycemia-hyperinsulinemia relative to age-matched littermate +/? groups. In all db/db and ob/ob age groups, a progressive hypercytolipidemia was noted relative to +/? groups. When analyzed for lipid channeling, a progressive perinuclear mapping pattern of cytolipid distribution was noted. The primary locus of initial db/db and ob/ob cytolipid deposition was localized to the baso-polar regions in endometrial epithelia samples, or to the interstitium-thecal layer border of ovarian follicular compartments, during the initial-onset DOS phase. Progressively, intra-cytoplasmic lipid mobilization promoted a consistent perinuclear channeling of lipid vacuoles, ultimately isolating nuclear loci from the peripherally displaced cytoplasmic organelles within uterine epithelial layers. In db/db and ob/ob ovarian tissue samples, a progressive, gradient-related lipid infiltration of interstitial, thecal and, ultimately, granulosa cell layers promoted an enhanced rate of follicular-lipidemic atresia relative to +/? groups. In each tissue layer, the cytolipidemia promoted a dramatic perinuclear lipid-isolation barrier from intra-cytoplasmic organelle domains. With age-related exacerbation of the DOS syndrome, cytoplasmic nuclear-organelle displacement and lipoisolation resulted in cellular atresia, promoting the eventual utero-ovarian organoatrophy which characterized the chronic-DOS phase in db/db and ob/ob C57BL/KsJ mutants. These results indicate that the cytoinvolution associated with reproductive tract atrophy in these genetically mutant, diabetic-obese models is promoted by the disruption of the normal cytoarchitecture of utero-ovarian tissue layers induced by the progressive lipid sequestration, accumulation and ultimate isolation-induced disruption of intra-cellular organelle compartmentalization.

Diabetes (db/db) mutation-induced female reproductive tract hypercytolipidemia: estrogenic restoration of utero-ovarian indices

The diabetes (db/db) mutation (leptin-receptor defect) induces a hyperglycemic-hyperinsulinemic endometabolic environment that promotes hypercytolipidemic, utero-ovarian involution in C57BL/KsJ mice, resulting in reproductive sterility and eventual organoatrophy. The effectiveness of low-dose, 17-B-estradiol therapy (E2-HRx), initiated prior to the genetic expression of the overt diabetes-obesity syndrome (DOS) on preventing female reproductive tract involution was evaluated by analysis of cytochemical, endocrine and tissue lipo-metabolic indices relative to oil (O)-vehicle treated (HRx) control (+/?) and (db/db) groups. All HRx treatments started at 4 weeks of age (i.e., pre-overt DOS stage) and continued through 16 weeks of age (i.e., chronic DOS expression) when tissue parameters were evaluated. The DOS promoted a dramatic increase in phenotypic obesity, hyperglycemia and hyperinsulinemia in (db/db) groups, relative to (+/?) indices, throughout the experimental period. In contrast, utero-ovarian weights were dramatically reduced in (db/db) groups relative to (+/?). Chronic low-dose E2-HRx moderated these DOS-induced trends in (db/db) groups, maintaining lowered body weights and normoglycemic parameters while stimulating utero-ovarian weight indices. In addition, E2-HRx prevented the dramatic hypercytolipidemic condition which promotes utero-ovarian involution in (db/db) mice as evidenced by the maintenance of normal reproductive cytoarchitecture. The concurrent moderation of tissue lipase activity and stimulated glucose uptake rates by (db/db) utero-ovarian compartments, under persistent hyperinsulinemic influences, indicated that E2-HRx effectively reduced both the structural and endometabolic consequences of the DOS from promoting (db/db)-associated reproductive organoatrophy. These results indicate that the pathophysiological alterations induced by the (db/db) mutation may be ameliorated through low-dose steroidal therapy, the efficacy of which is suspected to occur via membrane metabolic cascade induction mechanisms or by direct nuclear transcription modulation in reproductive target cells. The subsequent re-establishment of insulin-coupled glucose utilization and suppressed caloric shunting towards lipogenesis promotes the normalization of utero-ovarian structural and metabolic homeostasis in C57BL/KsJ-db/db mutants.

Hypercytolipidemia promotes diabetes (db/db) mutation-associated utero-ovarian involution: counter-regulatory influences of progesterone

Background: The diabetes (db/db) mutation induces a hyperglycemic-hyperinsulinemic endometabolic environment that promotes hypercytolipidemic, utero-ovarian involution in C57BL/KsJ mice, resulting in reproductive sterility and eventual organoatrophy. Objective: Evaluation of the effectiveness of progesterone therapy (P-HRx), initiated prior to the genetic expression of the overt diabetes-obesity syndrome (DOS), on moderating the severity of female reproductive tract involution promoted by db/db mutation expression was evaluated by analysis of cytoarchitectural, endocrine and tissue lipo-metabolic indices relative to oil (O)-vehicle-treated (HRx) control (+/?) and db/db groups. Experimental design: All HRx treatments were started at 4 weeks of age (pre-overt DOS stage) and continued through 16 weeks of age (chronic DOS expression) when tissue and cellular endometabolic parameters were evaluated. Results: The DOS induced a dramatic increase in phenotypic obesity, hyperglycemia and hyperinsulinemia in db/db groups, relative to +/?, throughout the experimental period. In contrast, utero-ovarian weights were dramatically reduced in db/db groups relative to +/? indices. Chronic P-HRx effectively reversed these DOS-induced trends in db/db groups, maintaining moderated body and tissue weights, as well as re-establishing normal insulin indices, under a persistent hyperglycemic condition. In addition, P-HRx moderated the dramatic hypercytolipidemic condition which promotes utero-ovarian involution in db/db mice as evidenced by the reduction in observed tissue cytolipidemia. The concurrent normalization of tissue lipase and enhancement of glucose utilization indices by db/db utero-ovarian compartments, under moderated insulin recognition parameters, indicated that P-HRx effectively suppressed the severity of both the structural and endometabolic consequences of the DOS in db/db groups, without restraining hyperglycemic conditions. Conclusion: These results indicate that the pathophysiological alterations induced by the db/db mutation may be modulated through low-dose steroidal therapy, the efficacy of which is suspected to occur by the augmentation of normal insulin-coupled, post-receptor directed glucose utilization via the stimulation of oxidative metabolic pathways capable of maintaining normal utero-ovarian structural continuity and metabolic homeostasis.

Ovarian hypercytolipidemia induced by obese (ob/ob) and diabetes (db/db) mutations: basis of female reproductive tract involution II

The diabetes (db/db) and obese (ob/ob) genotype mutations induce a progressive, hypercytolipidemic condition within the ovarian compartments of the female reproductive tract that results in sterility and premature organ involution in C57BL/KsJ mice. The current studies focus on the ultrastructural changes that occur within the ovarian interstitial, thecal, and follicular granulosa cell layers during the progressive expression of these mutations which promote tissue cytolipidemia-induced organoinvolution. Control (normal: +/?), diabetes (db/db), and obese (ob/ob) genotype groups were prepared for high resolution light (HRLM) and transmission electron microscopic (TEM) analysis of ovarian tissue samples collected from 4 (young)- to 20 (aged)-week-old mice, allowing for the progressive influences of the mutational aberrations on tissue structure to be evaluated. Compared to controls, both (ob/ob) and (db/db) mutations induced a dramatic increase in ovarian interstitial, thecal and follicular granulosa cytolipid vacuole accumulations, which increased in density between 4 and 20 weeks of age. Initially, lipid vacuoles aggregated in the interstitial and thecal regions of ovarian follicles in response to the hyperglycemic-hypertriglyceridemic metabolic conditions typical of both (ob/ob) and (db/db) groups. Progressive cytoplasmic movement of the lipid pools established a perinuclear isolation from associated cytoplasmic organelles. Progressive lipid accumulations forced cytoplasmic organelles to peripheral cell compartments and altered the follicular cell profile towards that of adipocyte-like entities relative to controls. The progressive hypercytolipidemia-induced alterations in cell structure disrupted normal tissue continuity, which culminated in premature ovarian organo-involution and female reproductive sterility.

Genomic modulation of diabetes ( db/db) and obese ( ob/ob ) mutation-induced hypercytolipidemia: cytochemical basis of female reproductive tract involution

Infertility and hypercytolipidemic utero-ovarian involution are recognized consequences of the diabetes-obesity syndrome (DOS) in C57BL mice with either obese (ob/ob) or diabetes (db/db) single gene mutations. We have evaluated the interdependent deleterious influences of both mutation types and differences in the genomic background on utero-ovarian dysfunction in C57BL mice. Control ( +/?) C57BL mice were matched with littermate ob/ob and db/db mutants expressed on either the /KsJ or /6 background. Both ob/ob and db/db mutations increased body weights of /KsJ and /6 background strains relative to +/? groups. In contrast, uterine and ovarian weights were depressed by ob/ob and db/db mutations relative to +/?, regardless of the background strain, but especially when expressed on the /KsJ background. Functionally, both ob/ob and db/db mutations induced hyperglycemic-hyperinsulinemic states coupled with depressed serum estradiol-17-beta and progesterone concentrations when expressed on a /KsJ background. Microscopic analysis of utero-ovarian tissue samples revealed marked hypercytolipidemia in the follicular granulosa and endometrial epithelial tissue layers of both ob/ob and db/db mutant groups relative to normal +/? cytoarchitecture. The db/db mutation consistently promoted more severe hypercytolipidemic profiles than the ob/ob mutation, regardless of background strain. Thus, the severity of utero-ovarian hypercytolipidemia following the expression of ob/ob and db/db mutations in C57BL mice is influenced, or moderated, by the genomic background on which the mutation is expressed.

Variable onset determinants and consequences of diabetes (db/db) obesity mutation expression: adrenergic promotion of utero-ovarian dysfunction

Expression of the diabetes ( db/db) genotype mutation in female C57BL/KsJ mice induces a complex diabetes-obesity syndrome (DOS) responsible for reproductive tract involution promoted by hypercytolipidemia (HCL). Current studies define the complex and influences of the endometabolic variables that promote reproductive tract involution at the time of initial db/db mutation expression onset in female C57BL/KsJ mice. Littermate-paired, normal ( +/?) and db/db groups were isolated between 2 - 4 weeks of age and tissue samples analyzed for utero-ovarian alterations induced by the systemic, tissue, cellular and structural consequences of mutation expression. Significantly elevated body weights, blood glucose concentrations and serum insulin levels contrasted with atrophic utero-ovarian indices in db/db mutants compared to +/? groups. The onset of the db/db-expression promoted obesity and a mild hyperglycemic-hyperinsulinemic state. Initial db/db expression was characterized by significantly increased utero-ovarian insulin binding without variation in membrane insulin receptor concentrations. However, significant elevations in tissue glucose sequestration rates, norepinephrine (NE) concentrations and triacylglyceride lipase activity in db/db groups indicated that a complex of endometabolic counter-regulatory influences promoted the metabolic shunting of excess glucose and triglyceride moieties towards hypercytolipidemic storage. The resulting DOS-promoted accumulation of utero-ovarian cytolipidemic pools compromised reproductive tract cytoarchitecture in db/db mice. The results of these studies indicate that the inability of utero-ovarian tissue compartments to exhibit metabolic adaptation to the enhanced availability, transport and cellular imbibition of extracellular glucose-lipid pools promotes the initial cellular compromise recognized to induce reproductive failure in db/db mutants.

Digital Chemospectrophotographic Identification of Intracellular Hyperlipidemia in Diabetic Endometrial Epithelial Cells: Structural and Metabolic Basis of Organoatrophy

OBJECTIVE

Digital chemospectrophotographic (DCSP) microscopic analysis and evaluation methodology applicable for enhanced cytopathological analysis of diabetes-induced, cytohyperlipidemia-associated cellular involution in endometrial epithelial and stromal tissues that promotes reproductive dysfunction and organoatrophy.

METHODS

Combined light microscopy (LM), transmission electron microscopy (TEM) and described DCSP evaluation of endometrial samples collected from control (+/?) and genetically diabetic (db/db) C57BL/KsJ, hyperglycemic-hyperinsulinemic (type II) mice, designed to enhance the intracellular localization of chemically specified triglyceride and free fatty acid depositions, on progressive reproductive tract atrophy and cellular involution indices.

RESULTS

Compared to both the LM and TEM analysis of cytopathological changes associated with diabetes-induced endometrial involution and reproductive dysfunction, the application of DCSP provided enhanced pathovisual analysis of chemical-specific metabolic alterations and cytoplasmic structural changes which accompany cytohyperlipidemia-induced endometrial epithelial cell apoptosis and reproductive tract atrophy.

CONCLUSIONS

DCSP analysis provides an enhanced analytical method for the evaluation of cytoplasmic changes associated with the expression of genomic-, endocrine- or metabolic-based disease states by providing intercytoplasmic specific chemical or metabolic substrate alterations to be identified from conventional pathocellular preparations without requiring the use of exogenous ligand binding or fluorescent methodologies, allowing for a more complete metabolic and cellular evaluation of cytoplasmic indices associated with organoatrophy.

Hypophyseal lipoapoptosis: diabetes (db/db) mutation-associated cytolipidemia promotes pituitary cellular disruption and dysfunction

Expression of the diabetes (db/db) mutation in C57BL/KsJ mice suppresses the female pituitary-gonadal axis via progressive cytolipidemic disruption of hypophyseal gonadotropin release, culminating in premature involution of the reproductive tract and manifest infertility. The current studies define the systemic, endocrine, cytochemical and structural apoptotic changes that result from pituitary hypercytolipidemia induced by db/db mutation expression in this Type II diabetes-obesity syndrome (DOS) model. Adult female C57BL/KsJ control (+/? genotype) and db/db littermates were monitored for systemic and cellular alterations in LH-, FSH- and gonadal steroid-secretion, and coincident pituitary apoptosis, as indexed by TUNEL labeled 3' nuclear DNA-fragmentation, associated with cytolipid depositions. Obesity, hyperglycemia and hyperinsulinemia characterized all db/db-mutants relative to +/? groups. Serum progesterone (P) and estradiol (E2) concentrations were suppressed in db/db mutants coincident with decreased plasma LH and FSH concentrations relative to +/? values. Cytochemical analysis of anterior (AP) pituitary cell subtypes indicated that db/db mutants demonstrated prominent hypercytolipidemia relative to +/? pituitary cytoarchitecture. Cytolipidemic vacuoles were localized within protein vesiculated db/db hypophyseal basophilic and acidophilic cell populations. Hypophyseal cytoadiposity in db/db AP cells was co-localized with prominent cellular apoptotic TUNEL labeling of nuclear 3'-DNA fragments in cells demonstrating vesicular depopulation and cytolytic vacuolization. These data represent the first demonstration of co-localized hypercytolipidemic and cytoapoptotic disruptive events occurring concurrently in a hypopituitary-hypogonadal syndrome model following expression of the Type II (NIDDM) diabetes-obesity syndrome in db/db-mutants. The coincident and progressive vascular-, interstitial- and cyto-lipidemic alterations in hypophyseal cytoarchitecture correlated with the concurrent apoptotic disruption of pituitary endocrine cytoarchitecture and supressed gonadal steroid synthesis, influences which collectively contribute to the premature involution of the pituitary-gonadal axis in C57BL/KsJ- db/db mice.

Cytomorphometric analysis and surface ultrastructure of developing decidua

A scanning electron microscopic (SEM) and morphometric analysis of the topographical changes occurring in the uterine luminal epithelial layer in association with decidual tissue (DT) formation in guinea pigs was undertaken in order to elucidate the surface ultrastructural characteristics which occur during the process of endometrial differentiation. Experimentally induced decidua formation was promoted by mechanical stimulation of the antimesometrial luminal surface during the period of maximal uterine sensitivity to stromal differentiation. DT-associated remodeling of the uterine epithelial layer was subsequently examined by light and SE microscopic analysis for apical epithelial and luminal contour alterations associated with decidua growth. Cytological changes in the luminal surface associated with DT induction included sparse microvillus growth from the apical epithelial surface, accompanied by the appearance of prominent apical membrane surface protrusions and endometrial gland openings as compared with non-DT-stimulated control samples. Decidua surface growth was characterized by a short, sparse epithelial microvillus pattern present over a highly contoured luminal uterine surface on which contoured gland openings were both numerous and prominent. These surface modifications contrasted with the flat, non-decidualized luminal surface contour which was covered by distinct, microvilli-laden, apical cell membranes, and defined by prominent intercellular membrane borders. The uterine surface at the time of maximal DT formation (i.e. growth) closely resembled that of a uterine luminal surface undergoing apoptosis and subsequent cellular reabsorption, characterized by disrupted cell surface membranes, sparse microvillus surfaces and prominent epithelial contours reflecting stromal tissue and vasculature involution. These data indicate that the alterations in the uterine luminal surface associated with DT formation are reminiscent of the endometrial changes associated with the initiation of early placentation, and may be used as a model for the analysis of the role of epithelial cell surface modifications associated with the induction and support of interstitial blastocyst implantation and early decidua formation.

Lipoatrophic diabetes-associated utero-ovarian dysfunction: influence of cellular lipid deposition on norepinephrine indices

OBJECTIVE

Elucidation of the intracellular lipoatrophic diabetic state and the concomitant alterations in norepinephrine (NE) parameters characterizing female reproductive failure.

METHODS

Quantitation of intrinsic NE levels in utero-ovarian and pancreatic tissue samples of C57BL/KsJ (+/?) control and (db/db) diabetic littermate mice was by high performance liquid chromatography (HPLC) and compared with the microspectrofluorometric histofluorescent (HF) localization of cellular and parenchymal NE.

RESULTS

Diabetes-associated elevations in HPLC-detectable tissue NE concentrations occurred in all pancreatic and reproductive tract tissue samples as compared to control-matched samples, whereas concurrent HF analysis revealed suppressed perivascular and parenchymal NE depositions in diabetic mice.

CONCLUSIONS

These data suggest that progressive hypertriglyceridemia/lipidemia may suppress the effectiveness of intrinsic elevations in tissue NE concentrations from effectively counterregulating the deleterious effects of the hyperglycemic, type-2 diabetic condition.

Aggression-associated changes in murine olfactory tubercle bioamines

The relationship between changes in regional brain bioamine levels and the expression of intraspecies aggressive behavior was evaluated in two murine models. In one study, normal male mice were maintained either in aggregate (i.e., normal, intraspecies social behavioral controls) or isolated (i.e., developed, non-social intraspecies aggressive 'fighter' behavior) housing environments, and the accompanying changes in both olfactory tubercle (OT) and hypothalamic (HYPOTH), norepinephrine (NE), dopamine (DA) and serotonin (5-HT) concentration indices quantitated by high-performance liquid chromatography (HPLC) for analysis of behavior-related alterations in localized bioamine deposition loci. Intact mice which had been housed in isolation cages and which exhibited aggressive, intraspecies reflexive-biting ('fighter') behavior when introduced to a novel (stimulus) animal, exhibited significant (P<0.05) elevations in NE levels, and depressed DA concentrations, in the OT regions relative to aggregated controls, indicating an intrinsic social influence on the maintenance of basal adrenergic indices at this neural locus. No changes in 5-HT levels were indicated between control and aggressive, isolated 'fighter' groups in either OT or HYPOTH loci. In addition, the NE and DA levels in the HYPOTH samples of both control and aggressive groups were found to be comparable. In the second study, utilizing an alternate type of aggression-induced murine model, changes in bioamine parameters were determined from samples obtained from aggregated, olfactory-bulbectomized (Obx) mice which are recognized to exhibit an overt, intraspecies, reflexive-biting behavior as compared to sham-operated (control) mice housed under identical conditions. In these studies, Obx-mice exhibited a significant increase in 5-HT levels in the OT relative to sham-operated controls, but similar NE and DA concentrations. In addition, all hypothalamic bioamine indices were found to be comparable between control and Obx groups. These data, collected for both isolation-developed, and experimentally-induced (i.e., OBX), intraspecies aggressive models, indicate that the distinctive types of aggressive behaviors displayed by these two murine models are accompanied by specific alterations in regional bioamine levels within the OT of these groups, relative to controls. These data suggest that the specific type of overt aggressive behavior demonstrated by these models may be causally related to the identified changes in bioamine concentrations in the forebrain regions of the CNS, in loci recognized to participate in environmental recognition and social processing activities.

Diabetes-induced, progressive endometrial involution characterization of periluminal epithelial lipoatrophy

The present studies detail the cytopathological alterations in uterine epithelial, basal lamina, and stromal endometrial subregions, and associated endocrine parameters that occur during the progressive exacerbation of the diabetes syndrome in this species of mouse. These alterations result in a cellular lipoatrophic condition that compromises uterine tissue integrity and promotes reproductive involution. Uterine tissue samples were obtained from litter-matched control (+/?) and diabetic (db/db) C57BL/KsJ mice at four designated stages of the progressive expression of the diabetes mutation. In db/db mice between the ages of 4 and 12 weeks, the uterine epithelial cellular architecture exhibited progressive deterioration, characterized by cytoplasmic lipid imbibition (accumulation), organelle disintegration, apical membrane ciliary regression, and peristromal lamina separation from basal membrane surfaces, as compared with control indexes. The cytoplasmic volume occupied by lipid inclusions dominated the epithelial cells in diabetic mice, presenting dense basal pole lipid vacuoles, with perinuclear-intracytoplasmic migration of the inclusions promoting an apical cytoplasmic lipid condensation of increasing volume 8-12 weeks after mutation expression. These cytoplasmic lipid accumulations occurred under altered metabolic and endocrine conditions characterized by hyperglycemic, hyperinsulinemic, hypertriglyceridemic, and enhanced noradrenergic indexes, which were exacerbated between 4- and 12-week stages. These structural changes were accompanied by enhanced adrenergic counterregulatory metabolic responses as well as elevated lipoprotein and triacylglycerol lipase activities. These data indicate that diabetes-associated uterine involution is characterized by a progressive cellular and peristromal lipoatrophy of epithelial cell cytology and metabolic parameters, promoting stromal separation and ultimate endometrial involution.

Estrogenic stimulation of hypothalamic-limbic system metabolism in ageing diabetic C57BL/KsJ mice

The therapeutic influences of estrogen treatment on age- and diabetes-related declines in regional brain glucose utilization (RBGU) rates were evaluated in 8- to 20-week-old female C57BL/KsJ normal (+/?) and diabetic (db/db) mice. Following either oil vehicle (oil: 0.1 ml) or estradiol (E: 1 microgram/3.5 days) treatments starting at 3 weeks of age, RBGU rates were subsequently determined at 8, 12, 16 and 20 weeks of age. A gradual decline in the basal rate of brain glucose utilization was observed in all control (oil- and E-treated) groups between 8 and 20 weeks. Expression of the hyperglycemic-obese diabetes syndrome in db/db mice resulted in a significant reduction in RBGU rates between 8 and 20 weeks relative to control values. In estrogen-sensitive hypothalamic, septal and amygdaloid regions, E therapy modulated RBGU rates in db/db mice relative to oil-treated diabetics, but did not significantly alter utilization rates in +/? mice. In cortical samples, E therapy had no significant influence on glucose utilization rates in either control or diabetic groups. A noticeable pattern of maturation-associated decline in CNS glucose utilization rates in all brain regions resulted in comparable regional metabolic indices being exhibited by all groups at 20 weeks of age, with the exception of the diabetes-associated exacerbation of RBGU rates in the oil-treated db/db group. These data demonstrate that the normal development-related decline in regional brain carbohydrate metabolism is accelerated by the diabetes syndrome, and that E therapy can modulate the syndrome-associated suppression of glucose utilization in steroid-sensitive CNS loci. These data suggest that the depressive influences of the diabetes syndrome on brain carbohydrate utilization rates may be therapeutically modified in recognized CNS regions possessing steroid-sequestering, metabolically responsive neurons.

Scanning electron microscopic and morphometric analysis of the guinea pig uterine luminal surface: cyclic and ovarian steroid-induced modifications

A morphometric and scanning electron microscopic analysis of endometrial, luminal topographical changes of cyclic and ovariectomized, ovarian steroid-treated guinea pigs was undertaken to determine the effects of cyclic endocrine influences on the uterine surface features recognized to be involved in the process of interstitial blastocyst implantation. Estrogenic stimulation of the uterine epithelial layer induced microvillus growth and closed the endometrial gland openings on the luminal surface. Progestins antagonized these parameters, as indicated by short, sparse microvillus formation over a flat luminal uterine surface on which gland openings were both numerous and prominent. The combined effects of estrogen and progesterone therapies induced luminal epithelial changes resembling those characterizing the cyclic uterine surface at the time of blastocyst implantation. These data indicate that the cyclic alterations in the uterine luminal surface are directly regulated by ovarian steroid hormones, and that these changes in surface structure are synchronized and directly involved in the preparation for blastocyst-uterine interaction during the nidatory process in this species.

Estrogen-regulated uterine vascularization modulates the guinea pig intrauterine environment

The effects of experimentally-induced, uterine vascular restriction on uterine blood flow (UBF) and uterine blood volume (UBV) capacity, as well as the dependent intrauterine oxygen tension (IUpO2) measurements used as an indication of luminal nutrient availability, were examined using ovariectomized, estrogen (E)-treated guinea pigs. Following 3 days of E treatment, both UBF and UBV measurements were found to be elevated and associated with a causally-related increase in intraluminal uterine oxygen availability levels. Following the acute clamping of the uterine arteries, both UBF and UBV levels decreased dramatically and induced a rapid fall in associated intrauterine luminal oxygen tension measurements. As a result of chronic (i.e., 6 h) restriction of segmental blood flow to the uterus by vascular cauterization, both UBV and IUPO2 levels were suppressed as compared with sham-operated control levels, whereas UBF rates were not significantly altered. The results of the present studies are the first quantitative demonstration that either acute or chronic reductions in uterine vascular capacity or competency can induce rapid and dramatic changes in the intrauterine nutritional environment recognized to be essential for the initiation, support and maintenance of nidation and subsequent fetal-placental development.

Developmental and regional changes in brain norepinephrine levels in diabetic C57BL/KsJ mice: effects of estradiol and progesterone

Developmental and diabetes-associated changes in regional brain norepinephrine (NE) concentrations, and the influence of estradiol (E) and progesterone (P) on NE levels, were correlated with changes in blood glucose levels and body weight (obesity) in developing 4-16-week-old C57BL/KsJ (db/db) mice relative to corresponding age-matched control (+/?) parameters. Regional brain (i.e. amygdala, hypothalamus and medulla) NE levels were determined by high performance liquid chromatography. The (db/db) mice exhibited overt hyperglycemia and obesity relative to controls between 4 and 16 weeks of age. Hypothalamic NE levels in diabetics were chronically elevated as compared to those of age-matched controls by 8 weeks of age, and remained elevated through 16 weeks of age. Regional amygdaloid and medullary NE concentrations were comparable in (+/?) and (db/db) groups by 16 weeks. E-treatments normalized (db/db) hypothalamic NE concentrations to control levels between 8 and 16 weeks of age, but had no effect on amygdaloid or medullary values. In contrast, in 16 week old (db/db) mice, P-treatments elevated hypothalamic and medullary NE levels compared to controls and expected diabetic levels. These data demonstrate that a marked modification in regional brain NE concentrations occurs in association with the overt expression of the diabetes mutation during development in this species. Observed changes in adrenergic influences in specific CNS loci may be therapeutically modulated by ovarian steroid hormones, especially in the hypothalamic locus which is recognized to possess steroid-concentrating neurons. The observed normalization of regional brain NE concentrations by E-therapy may be causally related to the ovarian steroid-modulation of overt hyperglycemia and diabetes-associated neuronal degeneration in (db/db) mice.

Age- and diabetes-associated alterations in regional brain norepinephrine concentrations and adrenergic receptor populations in C57BL/KsJ mice

The diabetes-associated changes in regional brain norepinephrine (NE) concentrations and related adrenergic receptor types were correlated with changes in blood glucose levels and body weight (obesity) in 4-16-week-old C57BL/KsJ (db/db) mice relative to corresponding age-matched control (+/?) parameters. Regional brain (i.e. frontal cortex, septal area, amygdala, hypothalamus and medulla) NE levels were determined by high performance liquid chromatography and compared to the associated changes in tissue alpha-1,2 and beta-adrenergic membrane receptor populations. All db/db mice exhibited overt hyperglycemia and obesity relative to controls between 4 and 16 weeks of age. Regional brain NE levels in diabetics were chronically elevated as compared to those of age-matched controls. All of the alpha 1 and alpha 2 adrenergic receptor populations were elevated in the regional brain samples of diabetics relative to controls. In contrast, beta-adrenergic receptor populations were depressed in diabetics as compared with age-matched controls. These data demonstrate that a marked modification in regional brain adrenergic parameters occurs in association with the overt expression of the diabetes mutation in this species. The observed changes in adrenergic influences in specific CNS loci may be causally related to the recognized diabetes-associated alterations in regional brain structure, function and metabolism in C57BL/KsJ (db/db) mice.

The effects of estradiol and progesterone on reproductive tract atrophy and tissue adrenergic indices in diabetic C57BL/KsJ mice

The diabetes-associated changes in tissue norepinephrine (NE) concentrations and related adrenergic receptor types were correlated with changes in blood glucose and serum insulin levels in 8- to 16-week-old C57BL/KsJ-db/db mice relative to corresponding age-matched control (+/?) parameters. In addition, the ability of estradiol and progesterone treatments to modify the diabetes-related adrenergic imbalance was investigated. Tissue (i.e., ovarian, uterine, pancreatic, and adrenal) NE levels were determined by high-performance liquid chromatography and compared with the associated changes in tissue alpha 1,2 and beta-adrenergic membrane receptor populations. All db/db mice exhibited overt hyperglycemia, hyperinsulinemia, and obesity relative to controls between 8 and 16 weeks of age. Tissue NE levels in diabetics were either similar to, or elevated, as compared with those of age-matched controls. Although the alpha 1 and beta receptor populations (except liver) were similar in 16-week-old groups, alpha 2 receptor populations in db/db mice were elevated relative to controls. Chronic estradiol therapy effectively counteracted the diabetes-induced elevations in tissue NE and influenced all adrenergic receptor populations, normalizing both parameters to control levels as well as modifying the hyperglycemia, but not the hyperinsulinemic component, of the diabetes-obesity syndrome in this species. Chronic progesterone treatment was found to be less effective in modulating these systemic and adrenergic parameters in diabetics relative to oil- or estradiol-treated mice. These data demonstrate that a marked modification in tissue adrenergic parameters occur in association with the overt expression of the diabetes mutation in this species. The ability of estradiol treatment to normalize both blood glucose levels and tissue adrenergic parameters in C57BL/KsJ-db/db mice indicates that a direct association between systemic and cellular counter-regulating influences, relative to the severity of the Type II diabetic condition, exists in this species. The therapeutic correction of these metabolic problems by ovarian steroid hormones suggests the existence of a causal relationship between cellular glucose homeostasis and steroid action in the diabetic model.

Effects of estradiol and progesterone on diabetes-associated utero-ovarian atrophy in C57BL/KsJ (db/db) mutant mice

The modulating effects of estradiol (E: 1 microgram/3.5 days) and progesterone (P: 2 mg/3.5 days) on the obesity and hyperinsulinemic and hyperglycemic components of the diabetes-obesity syndrome in female C57BL/KsJ (db/db) mice, which includes cellular atrophy and adiposity in the reproductive tract, were examined and compared to corresponding control (+/?) parameters. All control and diabetic mice received oil (vehicle control), E, or P treatments starting at 4 weeks of age. Body weight, serum insulin levels, blood glucose concentrations, and utero-ovarian lipoprotein lipase activities were analyzed at 8 and 16 weeks of age and related to the ultrastructural changes in the steroid-sensitive uterine epithelium during the treatment period. Neither E nor P had any effect on body weights in (+/?) or (db/db) mice. The pronounced diabetes-associated elevation in serum insulin levels was enhanced by E, and suppressed by P, in 16-week-old (db/db) mice as compared with controls. By 16 weeks of age, the E therapy normalized blood glucose levels in diabetic mice to control levels, whereas P was ineffective in modulating the hyperglycemia. The reduction in blood glucose levels in E-treated diabetic mice correlated temporally with the return of normal intracellular structure including the disappearance of intracellular lipid vacuoles characteristic of uterine epithelium cells of (db/db) mice. The diabetes-induced rise in utero-ovarian lipoprotein lipase activity was normalized by P-therapy. The reduction in utero-ovarian lipoprotein lipase activity coincided temporally with the demonstrated intracellular reorganization in (db/db) reproductive tract tissues.(ABSTRACT TRUNCATED AT 250 WORDS)

Morphometric analysis of obesity (ob/ob)- and diabetes (db/db)-associated hypothalamic neuronal degeneration in C57BL/KsJ mice

The influence of the obese (ob/ob) and diabetes (db/db) genetic mutations on hypothalamic structure was investigated in C57BL/KsJ and C57BL/6J mice strains by morphometric analysis of medial basal nuclei which are recognized to possess glucoregulatory neurons. Brains were collected and prepared for histomorphometric analysis at selected times following the development of expressed obesity and diabetes (Type II, non-insulin dependent) syndromes in order to compare both the strain and genomic influences on neuronal viability in the hypothalamic ventromedial (VMH) and arcuate (ARC) nuclei of mutant and age-matched control mice. The severity of each syndrome was determined by monitoring the concomitant changes in body weight and blood glucose levels in all groups. Both (db/db) and (ob/ob) mutant C57BL/KsJ mice exhibited an increase in the number and distribution of degenerated neurons in the VMH and ARC nuclei relative to corresponding controls. The mutation-associated exacerbation of the normal age-related neuronal loss, as observed in control MBH nuclei, was temporally associated with the overt expression of the hyperglycemic component of the obese and diabetes syndromes in aging C57BL/KsJ mice. No temporal or causal relationships were noted between the enhanced rate of premature neuronal degeneration, and either body weight or blood glucose levels, in either (db/db) or (ob/ob) C57BL/6J mice relative to controls. These data suggest that the hyperglycemic condition which characterizes the (ob/ob) and (db/db) mutant C57BL/KsJ mice is causally associated with the pronounced, premature MBH neuronal degeneration in these mouse strains. Neuronal changes were not pronounced when the genetic mutations were expressed in C57BL/6J mice. The accompanying alterations in brain glucose metabolism, hormone sensitivity, bioamine content and function which are recognized to occur in these mutant C57BL/KsJ mice may be causally associated consequences of the observed changes in MBH structural integrity and neuronal competence, with the severity of the mutation-associated changes being related to genetic background of the murine strain.

Reproductive tract and pancreatic norepinephrine levels in pre- and overt-diabetic C57BL/KsJ mice: relationship to body weight, blood glucose, serum insulin, and reproductive dysfunction

Diabetes-associated changes in tissue norepinephrine (NE) levels were determined in pre- and overt-diabetic C57BL/KsJ (db/db) mice relative to age-matched controls (+/?). At 4 weeks of age, both pre- and overt-diabetic mice exhibited obesity and hyperinsulinemia relative to controls. Prediabetic mice demonstrated normoglycemia and tissue (i.e., pancreatic, ovarian, and uterine) NE levels which were comparable to control levels. However, the hyperglycemic condition that characterized the overt-diabetic mice was found to be associated with significant elevations in tissue NE levels relative to both control and prediabetic values. These data demonstrate that the Type II diabetes-obesity syndrome in this mutant murine model is accompanied by a dramatic imbalance in the adrenergic influence on reproductive tissue glucose homeostasis. The hyperglycemic component of the diabetes-obesity syndrome is temporally linked to the noradrenergic disturbances in this model, which occur independently of insulin- or obesity-related changes that also accompany the expression of the genomic mutation and reproductive tract involution.

Deciduoma growth in the ovariectomized guinea pig: steroid hormone-mediated vascular support of endometrial differentiation

The ability of ovarian steroid hormones to modulate experimentally induced decidual tissue (DT) growth and the associated changes in uterine blood flow rates (UBF) was examined in ovariectomized guinea pigs after uterine trauma (designated day 0 of the studies). Uteri that were exposed, but not manipulated, served as controls. Uterine and DT weights as well as UBF, rates, were subsequently recorded on either day 5 or 10 posttrauma. Oil treatment failed to induce an increase in either control or traumatized uterine weights between days 5 and 10, and trauma had no effect on UBF rates in either group. Daily progesterone (P; 2 mg) treatment induced a significant elevation in DT weight by day 10 and elevated UBF rates between days 5 and 10 relative to control values. Daily P treatment augmented by estradiol (E2; 1 microgram) therapy on days 0 and 1 induced a significant increase in DT weights and UBF rates between days 5 and 10 in both control and DT groups relative to those in oil-treated animals. Combined P and E2 (P/E2) treatment induced a moderate increase in DT weight by day 10 posttrauma and elevated UBF rates in both control and DT groups. Acute treatment (i.e. days -3 to 0) with these steroid regimens indicated that neither P nor P/E2 treatment maintained DT growth. However, day -3 to 0 treatment with P in combination with a single day 0 injection of E2 allowed for maximal DT growth by day 10 and maintained elevated UBF rates relative to control values. P/E2 treatment between days -3 and 0 also induced an increase in UBF rates in both control and DT uteri relative to those in oil-treated animals. These results indicate that E2 is essential for supporting the P-directed differentiation and proliferation of stimulated guinea pig endometrium into DT. The ability of decidualization to occur in the absence of chronic steroid support indicates that uterine sensitization for cellular differentiation in this species only requires that the endometrium be initially primed by ovarian steroid hormones, but that subsequent growth is autonomous.

Regional brain glucose uptake in genetically diabetic C57BL/KsJ mice: modulation by the opiate antagonist, nalmefene

A novel opiate antagonist, Nalmefene (0.5 or 5.0 mg/kg/day) was tested for its ability to modulate regional brain glucose uptake rates in genetically diabetic C57BL/KsJ mice, which normally exhibit a depressed CNS carbohydrate metabolism relative to age-matched controls. Daily Nalmefene treatment had no effect on circulating blood glucose levels in either normal or diabetic mice over a 7-week test period. However, all brain regions, except the olfactory bulbs, exhibited normalized glucose uptake rates in diabetic mice relative to controls. These data suggest a role for opiate antagonists in the modulation of CNS glucose metabolism during hyperglycemic states.

Effects of diabetes on uterine condition, decidualization, vascularization, and corpus luteum function in the pseudopregnant rat

The effects of alloxan-induced diabetes on uterine decidualization and the associated changes in uterine blood flow (UBF) and corpus luteum activity were evaluated in rats between days 4-9 of pseudopregnancy (day 0 = ovulation). Rats were made diabetic (D) with a 40 mg/kg injection (iv) of alloxan on day 1 of pseudopregnancy. Saline-treated rats served as controls (C). Uterine weights were depressed in D rats between days 6-7 of pseudopregnancy in association with elevated blood glucose levels (greater than 300 mg/dl) relative to control values. UBF rates were also depressed in D rats between days 6-7 of pseudopregnancy compared with control values. Insulin replacement therapy (6 IU bovine/day) effectively normalized both uterine weight and UBF in diabetic rats. Decidual tissue (DT) growth was impaired in D rats between days 7 and 9 of pseudopregnancy (DT induction on day 4 of pseudopregnancy) compared with controls. Tissue blood flow rates were severely depressed throughout pseudopregnancy in D rats, but insulin treatment normalized both uterine parameters to control levels. Serum progesterone levels were lower in D rats than in controls between days 7 and 9 of pseudopregnancy. Daily insulin treatment normalized luteal function to control levels. The depressed DT weights in D rats were mimicked by the experimental reduction of DT blood flow in control rats. These results indicate that the uterine atrophy and poor endometrial decidualization that characterized the D rat are accompanied by impaired UBF and luteal activity. These findings suggest that the D-associated depression in female reproductive performance is related to the lack of proper hormone support of tissue vascular dynamics.

Obese (ob/ob) and diabetes (db/db) mutations: two factors modulating brain and peripheral tissue accumulation of estradiol in C57BL/KsJ mice

The effect of two mutant genes for obesity (ob/ob) and diabetes (db/db) on the accumulation rate of radiolabeled estradiol was examined in female C57BL/KsJ mice. Mutant mice were match-paired with normal (+/?) animals at 16 weeks of age. All ob/ob and db/db mice exhibited overt obesity and hyperglycemia relative to normals. The distribution and uptake of the radiolabeled estradiol was subsequently examined in specified CNS and peripheral tissues. In all cases, the db/db and ob/ob mutant conditions resulted in a depressed cellular accumulation of radiolabeled estradiol in both CNS and peripheral tissues relative to normal mice. The ob/ob mutation resulted in a more severe depression of tissue estradiol uptake than did the db/db mutation. These studies indicate that the abnormal metabolic and hormonal states induced by the mutations, and not the mere presence of the genomic mutation itself, probably accounts for the depressed cellular affinity for gonadal steroids in these murine models.

Depressed progesterone accumulation by the brain and peripheral tissues of diabetic C57BL/KsJ mice: normalization by estrogen therapy

The effects of diabetes on the uptake and incorporation of 3H-progesterone (P) in various brain areas and peripheral tissues were analyzed in C57BL/KsJ mice. Littermate control (+/?) and diabetic (db/db) mice were pulse-treated (60) min with 10 mu Ci of 3H-P at either 8 or 16 weeks of age. Subsequently, the peripheral tissues and brains were dissected, weighed, digested and the amount of incorporated 3H-P assessed. The pituitary, amygdala, septum and hypothalamus were found to concentrate the highest levels of 3H-P of all the brain areas examined. The brain areas of 16-week-old (+/?) mice accumulated higher concentrations of 3H-P than the comparable 8-week-old brain tissues. In addition, all the brain areas of 8-week-old (db/db) mice accumulated equal or more 3H-P than the comparable (+/?) brains. By 16 weeks of age, however, the 3H-P accumulation rate was significantly higher in all brain areas of (+/?), as compared to (db/db), mice. Of the peripheral tissues examined, the ovary, uterus, pancreas, kidney and mesometrial fat pad consistently exhibited the highest rates of 3H-P accumulation in both (+/?) and (db/db) mice. By 16 weeks of age, all peripheral tissues of (+/?) mice exhibited greater accumulation rates of 3H-P than the comparable (db/db) tissues. Following 4 days of estradiol treatment (10 micrograms/day s.c.), the 3H-P accumulation rates in 16-week-old (+/?) and (db/db) brain were essentially equal. Only the hypothalamus, septum and amygdala of the (db/db) mice failed to normalize to (+/?) levels following estradiol treatment. In a similar manner, the pancreas, uterus, ovary and fat of (db/db) mice exhibited 3H-P accumulation rates similar to those of (+/?) mice following estradiol treatment. These data indicate that estradiol therapy effectively normalizes the normal age- and diabetes-related declines in brain and peripheral tissue sensitivity and/or responsitivity to progesterone in C57BL/KsJ mice.

Ultrastructural and metabolic changes associated with reproductive tract atrophy and adiposity in diabetic female mice

The effect of progressive, diabetes-associated adiposity on reproductive tract structure and function was examined in 4- to 16-week-old C57BL/KsJ, control (+/?) and diabetic (db/db) mice. Uterine and ovarian tissues were analyzed by transmission electron microscopy for ultrastructural changes associated with increased intracellular lipid accumulation. In addition, the same tissues were analyzed for changes in activity of tissue lipoprotein lipase, an enzyme that hydrolyzes lipoprotein-associated triacylglycerols and supports the cellular uptake and storage of free fatty acids. Between 8 and 16 weeks of age, intracellular lipid deposits increased dramatically in the ovarian granulosa, thecal and stromal cell populations, as well as in the uterine epithelium, of diabetic mice compared to controls. By 16 weeks of age, the lipid deposits essentially occupied the entire cytoplasmic area of both the ovarian and uterine cell types in diabetics. The basal lamina underlying the uterine epithelium was expanded in the diabetics relative to controls, and the hyperglycemic condition induced an observable increase in endometrial intercellular space that was occupied by a hyaline type of ground substance of unknown composition and origin. In association with these structural changes, both ovarian and uterine lipase activities were greatly increased in the db/db mice compared with controls. These data suggest that the structural adiposity and functional decline in reproductive tract condition of the db/db mutants are related to the enhanced cellular lipid deposition observed in this species. These changes in structural and metabolic parameters are related to the reproductive incompetence characteristic of this murine model.

Estrogen modulation of uterine adrenergic-cholinergic interaction: effects on vasoactivity and adrenergic receptors in the guinea pig

The regulation of uterine blood flow (UBF) in the guinea pig was investigated by determining the effects of steroid-catecholamine interaction on guinea pig UBF in cyclic (Day 0 = estrus) and ovariectomized (OVX)-steroid treated females. In cyclic guinea pigs, parallel elevations in uterine weight, UBF, beta and alpha receptor levels were observed during the estrus period, whereas uterine norepinephrine (NE) levels were low. In contrast, all parameters remained at low levels except NE levels during the luteal phase of the cycle which remained elevated in both normal and OVX-oil treated animals. Estrogen (E1)-treated females showed elevated uterine weights, UBF, beta, and alpha receptor levels but low uterine NE concentrations. Combined progesterone-estrogen (P2E1) treatment caused similar changes but maintained tissue NE at control levels. In the exposed uterine artery preparation, the sequential administration of acetylcholine followed by NE application induced a marked elevation in UBF in OVX, E-1-treated animals which was blocked by phentolamine (10(-6) M). This phenomena could not be demonstrated in either oil- or progesterone-treated OVX guinea pigs. In uterine membrane preparations from ovariectomized guinea pigs pretreated with either oil or progesterone, methacholine (cholinergic agonist; 10(-6) M) failed to alter the affinity of the alpha receptor for NE. However, in uterine preparations from OVX, estradiol-treated guinea pigs, methacholine significantly (P less than .05) increased the affinity of the alpha receptor for NE.(ABSTRACT TRUNCATED AT 250 WORDS)

Regional [3H]testosterone uptake in the brain of isolated non-aggressive mice

Male mice which are housed individually develop a characteristic aggressive, 'fighting' behavior. A small percentage of mice so isolated fail to become aggressive and in fact, behaviorally are strikingly different in that they develop a 'timid' behavior. Isolation-induced aggression is an androgen-dependent behavior and androgen-sensitive neurons have been identified in mouse brain, mainly in the limbic system. When intact isolated aggressive mice and isolated and aggregated non-aggressive mice were injected with radioactive testosterone and sacrificed after 30 min no remarkable differences in uptake of radioactive testosterone occurred in various brain areas. However, in castrated animals the uptake of testosterone was greatly enhanced in the isolated non-fighters whereas testosterone uptake in the isolated fighters and aggregated non-fighters was in the range of the intact animals. This study represents, for the first time, a documented hormonal difference between isolated aggressive and non-aggressive animals.

The ovarian-adrenal axis in the guinea pig: effects of photoperiod, cyclic state and ovarian steroids on serum cortisol levels

The effect of photoperiod and reproductive cycle on the fluctuations in basal serum cortisol (F) levels were determined in adult female guinea pigs bled by intracardiac puncture under light methoxyflurane anesthesia. Blood samples were collected at regular intervals over a 24 hour period in order to assess the effects of the lighting regime (14 hr light/day: lights on 0600 hr) on basal levels of F. Peak F levels were observed at the beginning of the light cycle and lowest levels observed just prior to the onset of darkness in random, cyclic female guinea pigs. When analyzed for the influence of reproductive state, basal F levels were found to be elevated during proestrus, Day 2 (Day 0 = estrus) and the mid-luteal (Day 6-7) period of the estrus cycle. In ovariectomized animals a 10 microgram dose of estradiol (E) induced a dramatic rise (P less than 0.001) in adrenal weight and the basal levels of serum F as compared with oil-treated controls. Lower doses of E (1 microgram) and combined progesterone (2 mg)-E (1 microgram) treatment induced an elevation in adrenal weight and/or basal levels of serum F. Progesterone administration alone had no effect on either of these adrenal indices as compared with controls. These data indicate that both photoperiod and ovarian steroid hormone milieu affect adrenal function in the female guinea pig.

Morphometric analysis of medial basal hypothalamic neuronal degeneration in diabetes (db/db) mutant C57BL/KsJ mice: relation to age and hyperglycemia

Age- and diabetes-related neuronal degenerative changes were morphometrically evaluated in the arcuate (ARC) and ventromedial (VMH) hypothalamic nuclei of control (+/?) and diabetic (db/db) C57BL/KsJ mice between 4 and 16 weeks of age. By 4 weeks of age, (db/db) mice exhibited marked obesity and hyperglycemia relative to controls. An increase in the population of degenerated ARC neurons was detected at 8 weeks of age in (db/db) mice relative to (+/?) animals. By 16 weeks of age, a significant increase in the number of degenerated VMH neurons in (db/db) mice was found, relative to controls. In addition, the neuronal density (neurons/mm2 area of nucleus) of both the ARC and VMH nuclei was found to be depressed in (db/db) mice, relative to controls, by 16 weeks of age. These data suggest that the normal degenerative loss of ARC and VMH neurons that occurs with age in normal mice is enhanced in the (db/db) mouse. These findings suggest that a functional alteration in hypothalamic nuclei which are recognized to modulate autonomic, pancreatic and pituitary activity may be associated with the onset or expression of the diabetic condition in the C57BL/KsJ (db/db) mouse.

Diabetes-associated alterations in uterine structure in the C57BL/KsJ mouse: relationship to changes in estradiol accumulation, circulating ovarian steroid levels, and age

The effects of the diabetes (D) mutation on utero-ovarian structure and function were examined in match-paired D and control (C) C57BL/KsJ mice between 2 and 16 weeks of age. Between 4 and 8 weeks of age, the uterine epithelium of D mice exhibited a remarkable increase in the amount of cytoplasmic lipid stores as compared with that of C animals. Associated with progressive hyperglycemia between 8 and 16 weeks of age, uterine atrophy and continued lipid accumulation occurred. Both serum progesterone and estradiol levels were lower in D than C mice between 8 and 16 weeks of age. In addition, the uteri of D mice failed to accumulate as much 3H-estradiol as C uteri at 16 weeks of age. These data demonstrate that changes in uterine structure that are attributable to depressed ovarian activity in diabetics underlie the reproductive failure in these animals. The temporal association between the onset of reproductive tract involution and the expressed hyperglycemic condition suggests a causal association between these events in the genetically diabetic C57BL/KsJ mouse.

Decidua-associated changes in guinea pig uterine blood flow and volume: relation to uterine norepinephrine concentrations

Changes in uterine blood flow (UBF) and uterine blood volume (UBV) during decidual tissue (DT) formation in the guinea pig were assessed at 2, 6, and 10 days postuterine trauma (PT). Uterine weight increased steadily between days 2 and 10 PT in DT-bearing animals as compared with the constant uterine weights observed in controls. Both UBF and UBV levels were elevated between days 2 and 10 PT in DT-bearing animals as compared with controls with the vascular changes being histologically related to the progressive stromal differentiation. Uterine norepnephrine (NE) levels were significantly (P less than or equal to 0.05-0.01) depressed in the hyperemic, DT-bearing uteri as compared with controls. These results indicate that the uterine hyperemia associated with DT formation in the guinea pig involves a sustained increase in uterine vascular volume as well as vascular perfusion rate under conditions of depressed uterine NE levels. These events are intimately associated with the support of stromal differentiation in the guinea pig.

Morphometric evaluation of diabetes-associated ovarian atrophy in the C57BL/KsJ mouse: relationship to age and ovarian function

Progressive, diabetes-associated ovarian atrophy was analyzed in C57BL/KsJ diabetic (db/db) and control (+/?) mice between 2 and 16 weeks of age. Tissue changes were histologically and morphometrically analyzed and compared with ovarian functional indices (i.e., serum estradiol and progesterone) and metabolic (i.e., glucose uptake and estradiol sequestration) parameters. No significant differences were found between the ovarian follicular populations of either group at 2 and 4 weeks of age. However, between 4 and 8 weeks, the ovaries of diabetic mice exhibited marked stromal and follicular degeneration and an associated decline in the population of viable follicles as compared with controls. Between 8 and 16 weeks of age the follicular atrophy in the diabetics became more marked, as compared with controls, with the accumulation of intracellular lipid pools accenting the tissue degeneration and adiposity observed in both follicular and stromal compartments. In addition, ovarian function was depressed after 6 weeks of age in diabetic females as compared with controls as indicated by lowered serum estradiol and progesterone levels. Ovarian glucose uptake was enhanced in diabetic females while the ability of the ovary to sequester radiolabeled estradiol declined between 4 and 16 weeks of age as compared with controls. These data indicate that ovarian dysfunction in the (db/db) mutant mouse is associated with follicular atrophy, adiposity, impaired steroidogenesis, and imbalanced glucose utilization. These events occur in temporal association with the onset and progressive exacerbation of the hyperglycemic condition. It is suggested that ovarian involution in these mutants is directly related to an impaired follicular ability to metabolize properly the elevated intracellular glucose concentrations that develop in the (db/db) mice as compared with controls.