Substrate recognition principles for the PP2A-B55 protein phosphatase

The PP2A-B55 phosphatase regulates a plethora of signaling pathways throughout eukaryotes. How PP2A-B55 selects its substrates presents a severe knowledge gap. By integrating AlphaFold modelling with comprehensive high resolution mutational scanning, we show that α-helices in substrates bind B55 through an evolutionary conserved mechanism. Despite a large diversity in sequence and composition, these α-helices share key amino acid determinants that engage discrete hydrophobic and electrostatic patches. Using deep learning protein design, we generate a specific and potent competitive peptide inhibitor of PP2A-B55 substrate interactions. With this inhibitor, we uncover that PP2A-B55 regulates the nuclear exosome targeting complex by binding to an α-helical recruitment module in RBM7. Collectively, our findings provide a framework for the understanding and interrogation of PP2A-B55 in health and disease.

Fyn-phosphorylated PIKE-A binds and inhibits AMPK signaling, blocking its tumor suppressive activity

The AMP-activated protein kinase, a key regulator of energy homeostasis, has a critical role in metabolic disorders and cancers. AMPK is mainly regulated by cellular AMP and phosphorylation by upstream kinases. Here, we show that PIKE-A binds to AMPK and blocks its tumor suppressive actions, which are mediated by tyrosine kinase Fyn. PIKE-A directly interacts with AMPK catalytic alpha subunit and impairs T172 phosphorylation, leading to repression of its kinase activity on the downstream targets. Mutation of Fyn phosphorylation sites on PIKE-A, depletion of Fyn, or pharmacological inhibition of Fyn blunts the association between PIKE-A and AMPK, resulting in loss of its inhibitory effect on AMPK. Cell proliferation and oncogenic assays demonstrate that PIKE-A antagonizes tumor suppressive actions of AMPK. In human glioblastoma samples, PIKE-A expression inversely correlates with the p-AMPK levels, supporting that PIKE-A negatively regulates AMPK activity in cancers. Thus, our findings provide additional layer of molecular regulation of the AMPK signaling pathway in cancer progression.

BMI-referenced cut points for pedometer-determined steps per day in adults

BACKGROUND

The goal of this study was to establish preliminary criterion-referenced cut points for adult pedometer-determined physical activity (PA) related to weight status defined by body mass index (BMI).

METHODS

Researchers contributed directly measured BMI and pedometer data that had been collected (1) using a Yamax-manufactured pedometer, (2) for a minimum of 3 days, (3) on ostensibly healthy adults. The contrasting groups method was used to identify age- and gender-specific cut points for steps/d related to BMI cut points for normal weight and overweight/obesity (defined as BMI <25 and >or=25 kg/m2, respectively).

RESULTS

Data included 3127 individuals age 18 to 94 years (976 men, age = 46.8 +/- 15.4 years, BMI = 27.3 +/- 4.9; 2151 women, age = 47.4 +/- 14.9 years, BMI = 27.6 +/- 6.4; all gender differences NS). Best estimated cut points for normal versus overweight/obesity ranged from 11,000 to 12,000 steps/d for men and 8000 to 12,000 steps/d for women (consistently higher for younger age groups).

CONCLUSIONS

These steps/d cut points can be used to identify individuals at risk, or the proportion of adults achieving or falling short of set cut points can be reported and compared between populations. Cut points can also be used to set intervention goals, and they can be referred to when evaluating program impact, as well as environmental and policy changes.

Regulation of insulin secretion by uncoupling protein

UCPs (uncoupling proteins) can regulate cellular ATP production by uncoupling oxidative phosphorylation. UCP2 is expressed in islet beta-cells and its induction reduces glucose-stimulated insulin secretion. Under physiological conditions, superoxide, formed as a by-product of respiration, activates UCP2. This leads to reduced ATP production, which impairs closure of the ATP-dependent K+ channels to prevent insulin secretion. It is suggested that the physiological role of UCP2 is to prevent excessive superoxide generation through a feedback loop. UCP2 induction may also alter fatty acid metabolism by altering NAD/NADH or by facilitating cycling of fatty acid anions. Recently, UCP2 has been proposed to keep insulin secretion low during starvation, a function under the control of the transcription co-repressor, surtuin-1, which has been shown to bind to the UCP2 promoter. Pathological UCP2 expression or activation may suppress glucose-stimulated insulin secretion to the extent that diabetes onset is hastened. In ob/ob mice, induction of UCP2 at age 5 weeks precedes development of insulin secretion defects and hyperglycaemia. Activating protein kinase A-dependent pathways can normalize insulin secretion in UCP2-overexpressing islets. Conversely, lowering UCP2 expression may promote increased insulin secretion. UCP2 knockout mice were protected from the diabetogenic effects of a high-fat diet and their islets exhibited increased sensitivity to glucose and elevated ATP/ADP. These results support a role for UCP2 as a gene contributing to the pathogenesis of Type 2 diabetes.

cAMP-mediated signaling normalizes glucose-stimulated insulin secretion in uncoupling protein-2 overexpressing beta-cells

We investigated whether an increase in cAMP could normalize glucose-stimulated insulin secretion (GSIS) in uncoupling protein-2 (UCP2) overexpressing (ucp2-OE) beta-cells. Indices of beta-cell (beta-TC-6f7 cells and rodent islets) function were measured after induction of ucp2, in the presence or absence of cAMP-stimulating agents, analogs, or inhibitors. Islets of ob/ob mice had improved glucose-responsiveness in the presence of forskolin. Rat islets overexpressing ucp2 had significantly lower GSIS than controls. Acutely, the protein kinase A (PKA) and epac pathway stimulant forskolin normalized insulin secretion in ucp2-OE rat islets and beta-TC-6f7 beta-cells, an effect blocked by specific PKA inhibitors but not mimicked by epac agonists. However, there was no effect of ucp2-OE on cAMP concentrations or PKA activity. In ucp2-OE islets, forskolin inhibited ATP-dependent potassium (K(ATP)) channel currents and (86)Rb(+) efflux, indicative of K(ATP) block. Likewise, forskolin application increased intracellular Ca(2+), which could account for its stimulatory effects on insulin secretion. Chronic exposure to forskolin increased ucp2 mRNA and exaggerated basal secretion but not GSIS. In mice deficient in UCP2, there was no augmentation of either cAMP content or cAMP-dependent insulin secretion. Thus, elevating cellular cAMP can reverse the deficiency in GSIS invoked by ucp2-OE, at least partly through PKA-mediated effects on the K(ATP) channel.

alpha-lipoic acid regulates AMP-activated protein kinase and inhibits insulin secretion from beta cells

AIMS/HYPOTHESIS

The antioxidant compound alpha-lipoic acid (alpha-LA) possesses antidiabetic and anti-obesity properties. In the hypothalamus, alpha-LA suppresses appetite and prevents obesity by inhibiting AMP-activated protein kinase (AMPK). Given the therapeutic potential of alpha-LA for the treatment of type 2 diabetes and obesity, and the importance of AMPK in beta cells, we examined the effect of alpha-LA on pancreatic beta cell function.

MATERIALS AND METHODS

Isolated rat islets and MIN6 beta cells were treated acutely (15-90 min) or chronically (18-24 h) with alpha-LA or the known AMPK-activating compounds 5'-amino-imidazole-4-carboxamide ribonucleoside (AICAR) and metformin. Insulin secretion, the AMPK-signalling pathway, mitochondrial function and cell growth were assessed.

RESULTS

Acute or chronic treatment of islets and MIN6 cells with alpha-LA led to dose-dependent rises in phosphorylation of the AMPK alpha-subunit and acetyl CoA carboxylase. Chronic exposure to alpha-LA, AICAR or metformin caused a reduction in insulin secretion. alpha-LA inhibited the p70 s6 kinase translational control pathway, and inhibited MIN6 growth in a manner similar to rapamycin. Unlike AICAR and metformin, alpha-LA also acutely inhibited insulin secretion. Examination of the effect of alpha-LA on mitochondrial function showed that acute treatment with this compound elevated reactive oxygen species (ROS) production and enhanced mitochondrial depolarisation induced by Ca(2+).

CONCLUSIONS/INTERPRETATION

This study is the first to demonstrate that alpha-LA directly affects beta cell function. The chronic effects of alpha-LA include AMPK activation and reductions in insulin secretion and content, and cell growth. Acutely, alpha-LA also inhibits insulin secretion, an effect probably involving the ROS-induced impairment of mitochondrial function.

Insulin resistance causes increased beta-cell mass but defective glucose-stimulated insulin secretion in a murine model of type 2 diabetes

AIMS/HYPOTHESIS

Although insulin resistance induces compensatory increases in beta cell mass and function to maintain normoglycaemia, it is not clear whether insulin resistance can precipitate beta cell dysfunction and hyperglycaemia without a pre-existing beta cell susceptibility. We therefore examined the beta cell phenotype in the MKR mouse, a model in which expression of a dominant-negative IGF 1 receptor (IGF1R) in skeletal muscle leads to systemic insulin resistance and diabetes.

MATERIALS AND METHODS

Circulating glucose, insulin and glucagon concentrations were measured. Insulin sensitivity, glucose tolerance and insulin release in vivo were assessed by i.p. insulin and glucose tolerance tests. Beta cell function was assessed via insulin secretion from isolated islets and the glucose gradient in the perfused pancreas. Beta cell morphology was examined via immunohistochemistry. MKR mice were fed a high-fat diet containing sucrose (HFSD) to test metabolic capacity and beta cell function.

RESULTS

Insulin-resistant MKR mice developed hyperglycaemia and a loss of insulin responsiveness in vivo. Basal insulin secretion from the perfused pancreas was elevated, with no response to glucose. Despite the demand on insulin secretion, MKR mice had increased pancreatic insulin content and beta cell mass mediated through hyperplasia and hypertrophy. The HFSD worsened hyperglycaemia in MKR mice but, despite increased food intake in these mice, failed to induce the obesity observed in wild-type mice.

CONCLUSIONS/INTERPRETATION

Our studies demonstrate that insulin resistance of sufficient severity can impair glucose-stimulated insulin secretion, thereby undermining beta cell compensation and leading to hyperglycaemia. Moreover, because insulin stores were intact, the secretory defects reflect an early stage of beta cell dysfunction.

Stimulation of growth hormone secretion from seabream pituitary cells in primary culture by growth hormone secretagogues is independent of growth hormone transcription

The action of a number of growth hormone secretagogues (GHS) on growth hormone (GH) secretion and gene expression was studied in a primary culture of pituitary cells isolated from the black seabream Acanthopagrus schlegeli. The peptide GHS employed included growth hormone-releasing peptide (GHRP)-2, ipamorelin, and human ghrelin. The nonpeptide GHS employed included the benzolactam GHS L692,585 and the spiropiperidine GHS L163,540. Secreted GH was measured in the culture medium by an enzyme-linked immunosorbent assay (ELISA) method using a specific antibody against seabream GH. The GH mRNA content in the incubated cells was assessed by reverse transcription polymerase chain reaction (RT-PCR) using a pair of gene-specific primers designed from the cloned black seabream GH cDNA sequence. A dose-dependent stimulation of GH release was demonstrated by all the GHS tested, except human ghrelin, with EC(50) values in the nanomolar range. Simultaneous measurement of GH mRNA levels in the incubated seabream pituitary cells indicated that the GHS-stimulated increase in GH secretion was not paralleled by corresponding changes in GH gene expression. In contrast to the situation previously reported in the rat, no change in GH gene expression was noticed in the seabream pituitary cells even though the time of stimulation by GHS was increased up to 48 h, confirming that the GHS-stimulated GH secretion in seabream is independent of GH gene transcription.

Seabream growth hormone receptor: molecular cloning and functional studies of the full-length cDNA, and tissue expression of two alternatively spliced forms

A full-length clone of the growth hormone receptor (GHR) was isolated from a cDNA library constructed from the liver of black seabream (Acanthopagrus schlegeli). The seabream GHR (sbGHR) cDNA sequence encodes a transmembrane protein of 640 amino acids (aa) possessing the characteristic motifs and architectural design of GHRs of other species. When compared to the other fish GHRs, it is most homologous to another marine fish species, the turbot, where the aa identity is 79.3%. But the sbGHR sequence is more remotely related to the goldfish GHR (51.6% aa identity) and the salmonid GHRs (approximately 46-48% aa identities). Phylogenetic comparison with other known GHRs indicates that the fish GHRs constitute a distinct group among the different vertebrate classes. The aa identities between sbGHR and other GHRs are low, being around 40% with mammalian GHRs, around 45% with avian and reptilian GHRs, and less than 35% with Xenopus GHR. CHO cells transfected with the sbGHR cDNA can be stimulated to proliferate by recombinant seabream growth hormone (sbGH). In addition, the transfected cells can transactivate a co-expressed mammalian serine protease inhibitor (Spi) 2.1 promoter upon stimulation by sbGH. These functional assays indicated that the fish receptor can interact with its homologous ligand to evoke the downstream post-receptor events. Reverse transcription-polymerase chain reaction (RT-PCR) and genomic PCR using a pair of gene-specific primers revealed the expression of two alternatively spliced forms of sbGHR in various tissues of the fish. A 93-bp intron, unique to the sbGHR gene and not found in any other known GHR genes, is alternatively spliced to give rise to two forms of receptor mRNA transcripts. The two forms of the receptor are differentially expressed among the different tissues of the fish.

Scattered radiation level during videofluoroscopy for swallowing study

AIM

To evaluate the scattered radiation exposure to the surroundings during videofluoroscopy for swallowing study (VFSS).

MATERIALS AND METHODS

Scattered radiation exposure was measured using an ion chamber survey meter for 17 adult patients undergoing videofluoroscopy for swallowing study. The cumulative dose area product of each case was also recorded. Data were presented as mean +/- standard deviation.

RESULTS

The scattered radiation exposure at a distance of 150 cm from the patient and the dose area product recorded were 149 +/- 78 microR (range 42-308 microR) and 842 +/- 544 cGy.cm(2) (range 258-2151 cGy.cm(2)), respectively, for a single study of 18 +/- 6 minutes. A formula was then derived for estimating the scattered radiation dose to muscle tissue at an arbitrary distance based on the accumulated dose area product. With this formula, the mean scattered radiation dose to naked muscle tissue of the surrounding people at a distance of 30-100 cm from the patient were estimated to be 33.68-3.03 microSv respectively.

CONCLUSION

The scattered radiation detriment associated with videofluoroscopy for swallowing study was well within acceptable levels.

Glucose-inducible hypertrophy and suppression of anion efflux in rat beta cells

Hypertrophy of beta cells from obese fa/fa rats is associated with increased sensitivity to basal glucose. Exposure to glucose in culture distorts insulin secretion more in beta cells from large than small islets from fa/fa rats. The aim of the present study is to investigate whether increased beta cell volume is associated with both glucose hypersensitivity and altered activity of the glucose-sensitive anion conductance. Beta cells from fa/fa rats had increased volume compared with those from lean rats after 24 h culture. Three-day exposure to 25 mM glucose in culture induced 10-15% hypertrophy in beta cells from lean rats and basal secretion from intact islets was increased tenfold. Estimates of ion channel activity were made from measurement of radiolabeled ion efflux. Taurine efflux, a marker of glucose-regulated anion channel activity, was reduced after high glucose exposure but no alterations in glucose-dependent K+ efflux were detected. The reverse hemolytic plaque assay was used to determine the contributions of the number of secreting cells (recruitment) versus secretion per cell in beta cells from enlarged (>250 microm diameter), intermediate (125-250 microm) and small (<125 microm) islets from lean and obese rats exposed to conditions mimicking hyperglycemia. After overnight culture, basal secretion was twofold greater from beta cells of large fa/fa islets compared with all other groups. Recruitment at low glucose was increased in all lean or fa/fa beta cells derived from >125 microm islets. When beta cells from small islets were exposed to supra-physiological glucose for 3 days, recruitment was increased at basal glucose and blunted at high glucose. Glucose exposure converts the recruitment profile of beta cells from small islets to resemble that of beta cells from large islets while inducing cellular hypertrophy and reduced anion conductance. However, hypertrophy alone did not predict functional characteristics of overnight-cultured beta cells from fa/fa rats.

Uncoupling protein-2: evidence for its function as a metabolic regulator

Uncoupling protein-2, discovered in 1997, belongs to a family of inner mitochondrial membrane proteins that, in general, function as carriers. The function(s) of uncoupling protein-2 have not yet been definitively described. However, mounting evidence suggests that uncoupling protein-2 could act in multiple tissues as a regulator of lipid metabolism. A role as a modulator of reactive oxygen species as a defence against infection is also postulated. In this review, a brief overview of the general and specific properties of uncoupling protein-2 is given and evidence for metabolic and immune regulatory functions is summarized. Uncoupling protein-2 could have particular importance in the regulation of lipid metabolism in adipose tissue and skeletal muscle. In addition, its ability to inhibit insulin secretion could also promote fat utilization over storage. Inhibition by uncoupling protein-2 of reactive oxygen species formation in macrophages and other tissues could have implications for regulation of immune function. The possibility of functions of uncoupling protein-2 in other tissues such as the brain are beginning to emerge.

Uncoupling protein-2 negatively regulates insulin secretion and is a major link between obesity, beta cell dysfunction, and type 2 diabetes

beta cells sense glucose through its metabolism and the resulting increase in ATP, which subsequently stimulates insulin secretion. Uncoupling protein-2 (UCP2) mediates mitochondrial proton leak, decreasing ATP production. In the present study, we assessed UCP2's role in regulating insulin secretion. UCP2-deficient mice had higher islet ATP levels and increased glucose-stimulated insulin secretion, establishing that UCP2 negatively regulates insulin secretion. Of pathophysiologic significance, UCP2 was markedly upregulated in islets of ob/ob mice, a model of obesity-induced diabetes. Importantly, ob/ob mice lacking UCP2 had restored first-phase insulin secretion, increased serum insulin levels, and greatly decreased levels of glycemia. These results establish UCP2 as a key component of beta cell glucose sensing, and as a critical link between obesity, beta cell dysfunction, and type 2 diabetes.

Increased uncoupling protein-2 levels in beta-cells are associated with impaired glucose-stimulated insulin secretion: mechanism of action

In pancreatic beta-cells, glucose metabolism signals insulin secretion by altering the cellular array of messenger molecules. ATP is particularly important, given its role in regulating cation channel activity, exocytosis, and events dependent upon its hydrolysis. Uncoupling protein (UCP)-2 is proposed to catalyze a mitochondrial inner-membrane H(+) leak that bypasses ATP synthase, thereby reducing cellular ATP content. Previously, we showed that overexpression of UCP-2 suppressed glucose-stimulated insulin secretion (GSIS) in isolated islets (1). The aim of this study was to identify downstream consequences of UCP-2 overexpression and to determine whether insufficient insulin secretion in a diabetic model was correlated with increased endogenous UCP-2 expression. In isolated islets from normal rats, the degree to which GSIS was suppressed was inversely correlated with the amount of UCP-2 expression induced. Depolarizing the islets with KCl or inhibiting ATP-dependent K(+) (K(ATP)) channels with glybenclamide elicited similar insulin secretion in control and UCP-2-overexpressing islets. The glucose-stimulated mitochondrial membrane ((m)) hyperpolarization was reduced in beta-cells overexpressing UCP-2. ATP content of UCP-2-induced islets was reduced by 50%, and there was no change in the efflux of Rb(+) at high versus low glucose concentrations, suggesting that low ATP led to reduced glucose-induced depolarization, thereby causing reduced insulin secretion. Sprague-Dawley rats fed a diet with 40% fat for 3 weeks were glucose intolerant, and in vitro insulin secretion at high glucose was only increased 8.5-fold over basal, compared with 28-fold in control rats. Islet UCP-2 mRNA expression was increased twofold. These studies provide further strong evidence that UCP-2 is an important negative regulator of beta-cell insulin secretion and demonstrate that reduced (m) and increased activity of K(ATP) channels are mechanisms by which UCP-2-mediated effects are mediated. These studies also raise the possibility that a pathological upregulation of UCP-2 expression in the prediabetic state could contribute to the loss of glucose responsiveness observed in obesity-related type 2 diabetes in humans.

Three-dimensional MR microscopy of a transgenic mouse model of dilated cardiomyopathy

BACKGROUND

Scientists are now able to alter the genetics of vertebrate embryos routinely to produce animal models of human developmental diseases. However, our understanding of structural changes in these animal models is limited by current methodologies. Histological techniques, although providing great anatomic detail, display only "static" data (one time point only) in two dimensions. Ultrasound may be used to generate continuous time course data, but is limited by interobserver variation, limited acoustic windows, and relatively low resolution.

OBJECTIVE

To apply the high resolution, non-destructive, and three-dimensional acquisition capabilities of magnetic resonance (MR) microscopy to compare the hearts of normal mice versus an established transgenic mouse model of dilated cardiomyopathy.

MATERIALS AND METHODS

Transgenic mice exhibiting dilated cardiomyopathy were developed via the introduction of a mutated, heart-specific gene (myosin light chain). Postmortem cardiac imaging was performed on the transgenic mice and normal controls. MR imaging was performed on a Bruker 3T imaging magnet using a custom radiofrequency coil following contrast perfusion of the atrial and ventricular chambers. Image resolution was 156 microm isotropic voxels. MR images were compared to gross pathologic specimens. Imaging data were post-processed using custom software to calculate the volumes of the atria and ventricles and to display the three-dimensional morphology of the chambers and myocardium.

RESULTS

Of the seven mice scanned, four exhibited normal right atrial (average = 14.8 microl +/- 1.4), left atrial (average = 8.5 microl +/-0.3), right ventricular (average = 12.9 microl +/-2.7), and left ventricular (average 3.3 microl +/-0.5) volumes. Three mice exhibited dilatation of the right and left cardiac chambers (RA average = 23.9 microl +/-5.6; LA average = 15.9 microl +/-4.8; RV average = 32.5 microl +/- 6.8; LV average 24.0 microl +/-1.4). The gross morphology was verified upon autopsy of the animals and correlated with the animal's genotype. The differences in volumes between the normal and dilated cardiomyopathy mice were statistically significant (P values ranged from 0.001 to 0.024 for the different chambers).

CONCLUSION

MR microscopy is a potentially useful tool for developmental biology research. The imaging of mouse hearts is feasible, and these methods provide quantitative and qualitative morphologic data of a mouse model of dilated cardiomyopathy not available using traditional methods.

Interactions between effects of adrenalectomy and diet on insulin secretion in fa/fa Zucker rats

Our objective was to determine if a cafeteria-type diet with increased fat content would block the decrease in insulin secretion induced by adrenalectomy in obese rats. Five week old Zucker (fa/fa) rats were adrenalectomized. One week later, half of the adrenalectomized groups, and age-matched, sham-operated animals were given a diet of 16% fat and 44% carbohydrate. Control animals were maintained on standard rat chow (4.6% fat and 49% carbohydrate). After 4 weeks on the diets, in vivo measurements included caloric intake, weight gain, plasma corticosterone, triglyceride, free fatty acids, and oral glucose tolerance tests. In vitro measurements included glucose-stimulated insulin secretion, glucose phosphorylating activity, islet triglyceride content, and fatty acid oxidizing activity of cultured islets. Generally, the cafeteria diet did not block the effects of adrenalectomy on in vitro insulin secretion parameters, even though in sham-operated animals weight gain and insulin resistance was induced by the diet in vivo. Adrenalectomy and the diet exerted independent effects on glucose phosphorylation and fatty acid oxidation in islets. In conclusion, adrenalectomy decreased the elevated insulin secretion in fa/fa rats. The failure of a cafeteria diet enriched in fat to block the adrenalectomy-mediated changes in B-cell function indicates the importance of glucocorticoids and centrally-mediated effects on insulin secretion and other metabolic parameters.

Myosin light chain replacement in the heart

Myosin-actin cross-bridge kinetics are an important determinant for cardiac systolic and diastolic function. We compared the effects of myosin light chain substitutions on the ability of the fibers to contract in response to calcium and in their ability to produce power. Transgenesis was used to effect essentially complete replacement of the target contractile protein isoform specifically in the heart. Atrial and ventricular fibers derived from the various transgenic (TG) lines were skinned, and the force-velocity relationships, unloaded shortening velocities, and Ca(2+)-stimulated Mg(2+)-ATPase activities were determined. Replacement with an ectopic isoform resulted in significant changes in cross-bridge cycling kinetics but without any overt effects on morbidity or mortality. To confirm that this result was not light chain specific, a modified alpha-myosin heavy chain isoform that resulted in significant changes in force development was also engineered. The animals appeared healthy and have normal lifespans, and the changes in force development did not result in significant remodeling or overt hypertrophy. We conclude that myosin light chains can control aspects of cross-bridge cycling and alter force development. The myosin heavy chain data also show that changes in the kinetics of force development and power output do not necessarily lead to activation of the hypertrophic response or significant cardiac remodeling.

Molecular cloning and expression studies of a prolactin receptor in goldfish (Carassius auratus)

A full-length cDNA clone, of a size of 4.6 kb, for the goldfish prolactin receptor has been isolated. This cDNA clone encodes a protein of 600 amino acids homologous to prolactin receptors of other species. A Kyte-Doolittle hydropathy analysis of the receptor indicates that the translated protein consists of a signal peptide of 22 amino acids, an extracellular domain of 228 amino acids, a single transmembrane domain of 24 amino acids, and an intracellular domain of 346 amino acids. Several characteristic landmarks of prolactin receptor could be identified in this clone. These include the four conserved cysteine residues and the WS motif within the extracellular domain, and the box 1 and box 2 regions of the intracellular domain. Among all the prolactin receptor sequences known to date, this clone bears the closest resemblance to the tilapia prolactin receptor, although homology between these two fish prolactin receptors is rather low. There are only 57.4% of nucleotide and 48.3% of amino acid sequence identities between these two fish receptors. This receptor cDNA was transfected into CHO-K1 cells for functional analysis. RT-PCR analysis with a pair of gene specific primers indicate that the receptor was transcribed in the transfected cells. Using a cell proliferation assay based on the reduction of the tetrazolium salt 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide, the receptor transfected CHO-K1 cells can be stimulated to proliferate upon the addition of ovine prolactin in the culture medium. The tissue distribution of the prolactin receptor in goldfish was studied by RT-PCR/Southern analysis and by Northern analysis. The results indicated that the receptor is expressed mostly in the kidney, the gill and the intestine of goldfish, corroborating with the osmoregulatory role of prolactin in fish. In addition, an appreciable level of the receptor is also found in the brain and gonads of goldfish. Northern analysis showed that there are two transcript sizes, a major 4.6 kb and a minor 3.5 kb mRNAs, in the kidney, gill and intestine.

Glucose refractoriness of beta-cells from fed fa/fa rats is ameliorated by nonesterified fatty acids

The aim of this study was to characterize the glucose responsiveness of individual beta-cells from fa/fa rats under ad libitum feeding conditions. Enlarged intact islets from fed fa/fa rats had a compressed insulin response curve to glucose compared with smaller islets. Size-sorted islets from obese rats yielded beta-cells whose glucose responsiveness was assessed by reverse hemolytic plaque assay to determine whether glucose refractoriness was caused by a decreased number of responsive cells or output per cell. In addition, the effects of palmitic acid on glucose-stimulated insulin secretion were assessed because of evidence that nonesterified fatty acids have acute beneficial effects. Two- to threefold more beta-cells from >250 microm diameter (large) islets than <125 microm diameter (small) or lean islets responded to low glucose. Increasing the glucose (8.3-16.5 mM) induced a >10-fold increase in recruitment of active cells from small islets, compared with only a 2.6-fold increase in large islets. This refractoriness was partially reversed by preincubation of the cells in low glucose for 2 h. In addition, secretion per cell of the large islet beta-cell population was significantly reduced compared with lean beta-cells, so that the overall response capacity of large but not small islet beta-cells was significantly reduced at high glucose. Therefore, continued near-normal function of the beta-cells from small islets of fa/fa rats seems crucial for glucose responsiveness. Incubation of beta-cells from large islets with palmitic acid normalized the secretory capacity to glucose mainly by increasing recruitment and secondarily by increasing secretion per cell. In conclusion, these studies demonstrate refractoriness to glucose of beta-cells from large islets of fa/fa rats under ad libitum feeding conditions. When acutely exposed to nonesterified fatty acids, islets from fa/fa rats have a potentiated insulin response despite chronic elevation of plasma lipids in vivo.

Overexpression of uncoupling protein 2 inhibits glucose-stimulated insulin secretion from rat islets

Uncoupling protein 2 (UCP-2) mRNA expression has been shown to be altered by metabolic conditions such as obesity in humans, but its functional significance is unknown. The expression of UCP-2 mRNA and protein in normal rat islets was established by reverse transcriptase-polymerase chain reaction and immunocytochemistry in pancreatic islets and tissue, respectively. Intense immunostaining of UCP-2 correlated with insulin-positive ,-cells. Overexpression of UCP-2 in normal rat islets was accomplished by infection with an adenovirus (AdEGI-UCP-2) containing the full-length human UCP-2 coding sequence. Induction of the AdEGI-UCP-2 gene resulted in severe blunting of glucose-stimulated insulin secretion (GSIS) without affecting islet insulin content or the ability of the calcium ionophore A23187 to increase insulin secretion from AdEGI-UCP-2-expressing islets. Therefore, UCP-2 overexpression affects signal transduction proximal to Ca2+-mediated steps, including exocytosis. Insulin secretion from single beta-cells to 16.5 mmol/l glucose examined by reverse hemolytic plaque assay was nearly ablated if UCP-2 was overexpressed. Thus, a direct, causal relationship between overexpression of UCP-2 and inhibition of GSIS in normal islets has been established. These data suggest that increased expression of UCP-2 has the potential to cause the lack of a glucose effect on insulin secretion in type 2 diabetes.

Beta-cell hypertrophy in fa/fa rats is associated with basal glucose hypersensitivity and reduced SNARE protein expression

In normal isolated beta-cells, the response to glucose is heterogeneous and characterized by an increasing number of secretory cells as glucose concentration rises (Pipeleers DG, Kiekens R, Ling Z, Wilikens A, Schuit F: Physiologic relevance of heterogeneity in the pancreatic beta-cell population. Diabetologia 37 (Suppl. 2):S57-S64, 1994). We hypothesized that fasting hyperinsulinemia in obesity might be explained by altered beta-cell heterogeneity of signal transduction mechanisms, possibly involving exocytotic proteins. Insulin secretion from individual beta-cells sorted according to the size of the islet donor (<125 microm, >250 microm, and intermediate diameter) was measured by reverse hemolytic plaque assay. Beta-cells from fa/fa rats were hypertrophied 25-40%, independent of donor islet size. This was accompanied by an increased proportion of secretory cells (recruitment) at 5.5-11.0 mmol/l glucose, increased secretion per cell at 2.8 mmol/l glucose, and decreased insulin content after acute glucose exposure without an increase in secretion per cell. Decreased expression of exocytotic (soluble N-ethylmaleimide-sensitive fusion protein receptor [SNARE]) proteins, vesicle-associated membrane protein isoform 2 (VAMP-2), synaptosomal protein of 25 kDa (SNAP-25), and syntaxin-1 and -2 in fa/fa beta-cells may contribute to the failure to sustain excessive plaque size at higher glucose concentrations. Fasting hyperinsulinemia may be maintained by increased recruitment and an exaggerated secretory response in all fa-derived islet populations. Glucose regulates beta-cell responsiveness in the short term, and these effects may involve altered expression of SNARE proteins.

Ultrastructural and secretory heterogeneity of fa/fa (Zucker) rat islets

Many previous studies of obese rodents documented biochemical changes in pancreatic islets that contribute to hyperinsulinemia in vivo. Those studies used heterogeneous populations of islets, although the size of islets from obese rats ranges from < 100 to > 500 microm. Here, functional and morphological changes in size-sorted (< 125 and > 250 microm diameter) islets from obese Zucker (fa/fa) rats were correlated. Ultrastructural examination revealed that > 250 microm cultured islets had an increased number of immature secretory granules in the beta cells. The number of degranulated beta cells in > 250 and < 125 microm cultured islets from fa/fa rats was higher than in lean rat islets (33 vs 25%). The glucose EC50 values for cultured islets were 4.64 +/- 0.43, 7.9 +/- 0.70 and 7.29 +/- 1.64 mmol.l(-1) for > 250 microm, < 125 microm, and lean groups, respectively. Inhibition of insulin secretion by 10 mmol.l(-1) mannoheptulose was reduced by 50% in > 250 microm islets compared with small islets. Studies of individual beta cells by reverse hemolytic plaque assay revealed 3-fold more cells from > 250 microm islets were stimulated by 1.4 mmol.l(-1) glucose than cells from < 125 microm islets. We conclude that functional defects in mixed size populations of islets from fa/fa rats are mainly due to alterations in the large islets, whereas smaller islets have relatively normal function. Exposure to high glucose exacerbates morphological and functional differences of large islets, which could have important implications in the transition to noninsulin-dependent diabetes when beta cell insulin production is unable to compensate for hyperglycemia.

Reduced sensitivity of fa/fa Zucker rats to adrenomedullin

Rat adrenomedullin is a peptide vasodepressor that may be of importance in the pathogenesis of hypertensive disease. Because of the known link between obesity and hypertension, we hypothesized that decreased responsiveness to adrenomedullin might be seen in an obese rodent model. In this study, the in vivo vasodilator actions of exogenous adrenomedullin were compared in anesthetized lean (n = 7) and obese (fa/fa) Zucker rats (n = 8). Adrenomedullin dose dependently lowered mean arterial pressure in both phenotypes, but the half-maximal dose (ID50) was 2-fold higher in fa/fa rats (1.7 +/- 0.22 vs. 0.83 +/- 0.06 nmol/kg). Moreover, the duration of effect was markedly reduced in the fa/fa rats, to 1-2 min from about 5 min in the lean animals. There was no evidence for an increased rate of degradation of adrenomedullin in the fa/fa rats. Although the rats used in this study were not hypertensive, adrenomedullin had reduced sensitivity and duration of action. The evidence suggests possible defects at the target receptor or altered metabolism of adrenomedullin in obesity.

KATP channel-dependent and -independent pathways of insulin secretion in isolated islets from fa/fa Zucker rats

We hypothesized that altered insulin secretory patterns in obese (fa/fa) Zucker rats might be caused by changes in downstream stimulus-secretion coupling events, such as ATP-dependent potassium (KATP) channel activity. The functions of KATP-dependent and -independent pathways of insulin secretion were therefore compared in lean and fa/fa Zucker rat isolated islets. KATP channel function was normal in fa/fa rat islets, as assessed by responsiveness to direct channel inactivators glybenclamide and quinine and by the receptor-mediated response to epinephrine and somatostatin. Altered sensitivity to glucose and mannoheptulose were explained by upstream alterations in glucose metabolism documented earlier. Despite normal inactivation of KATP channels by ATP depletion of fa/fa rat islets, glucose-stimulated insulin secretion was not inhibited, leading to studies of a putative KATP-independent pathway. When islets were depolarized by incubating with 30 mM potassium and 0.25 mM diazoxide to bypass KATP channels, glucose elicited a concentration-dependent response in both phenotypes. This response required glucose metabolism and Ca2+, as proven by experiments with nonmetabolizable glucose analogs and calcium chelation, but was only partially inhibited by a glycolytic inhibitor. Intermediates or products of oxidative metabolism are likely involved because alpha-ketoisocaproate also elicited a KATP-independent insulin response. The pattern of responses was similar in lean and fa/fa rat islets, indicating that neither of these pathways explains the insulin secretion by fa/fa rat islets depleted of ATP. In conclusion, phenotype-related differences in KATP channel function were consistent with upstream changes in glucose metabolism in fa/fa rat islets. Further studies are required to understand the basis of insulin secretion in ATP-depleted islets from fa/fa rats.

Use of genomic DNA probes for the diagnosis of acute sarcocystosis in experimentally infected cattle

Two clones of 1.4 and 4.33 kilobase pairs (kbp) DNA inserts, were selected from a Sarcocystis cruzi sporozoite genomic library constructed in bacteriophage lambda gt10. These clones strongly hybridized with sporozoite and merozoite DNA and were evaluated as probes for detection of merozoite DNA in clinical samples. Of five calves in the experiment, four were each orally dosed with approximately 200,000 S. cruzi sporocysts; one calf served as non-infected control. Subsequently, blood was collected from the calves twice weekly for 3.5 months and fractionated into buffy coats, polymorphonuclear cells, and plasma. Total cellular DNA extracted from these fractions was dot blotted on nylon membranes and hybridized with the probes radiolabeled with [alpha-32P]dATP. The probes detected merozoites on Day 22 post infection in the buffy coats and intermittently from Day 25-39 in the granulocyte fraction. Parasitemia (i.e. merozoites in blood) was also detected by indirect fluorescent antibody technique (IFAT) and direct microscopy, Diagnosis of sarcocystosis in cattle using genomic DNA probes by dot blot hybridization provides an alternative method of detecting parasitemia that is more rigorous than the other two tests (IFAT, direct microscopy) which rely on morphology of the merozoite and visualization by the examiner. As probes detected merozoite DNA in the granulocyte fraction, polymorphonuclear cells may be involved in the pathogenesis of S.cruzi; however this hypothesis requires further study.

Effect of adrenalectomy on the development of a pancreatic islet lesion in fa/fa rats

Adrenalectomy prevents development of obesity and hyperinsulinaemia in obese (fa/fa) Zucker rats, thereby implicating the hypothalamo- pituitary-adrenal axis in the pathogenesis of obesity. In this study glucose-induced insulin secretion and glucokinase activity were investigated in isolated islets from adrenalectomized and control obese and lean female rats. Islets from control fa/fa rats were more sensitive to glucose with a half-maximal effective concentration (EC50) of 6.1 +/- 2.0 mmol. 1(-1) compared with 10.6 +/- 2.7 mmol. 1(-1) for adrenalectomized fa/fa rat islets. Adrenalectomy did not alter the islet sensitivity to glucose in the lean rats (EC50 of 9.4 +/- 1.5 mmol.1(-1) and 9.3 +/- 2.0 mmol. 1(-1) for adrenalectomized and control lean rats respectively). Mannoheptulose did not inhibit insulin secretion from control obese rats; however at concentrations of 1.0 mmol. 1(-1) or more it significantly inhibited glucose-induced insulin secretion in adrenalectomized obese and lean, and control lean rat islets (P < 0.05). In adrenalectomized fa/fa islets the glucokinase Km was increased twofold compared with the control fa/fa rats (9.5 +/- 1.5 mmol. 1(-1) vs 5.0 +/- 1.5 mmol. 1(-1), respectively), but there was no significant change in glucokinase Km in the lean rat islets after adrenalectomy. Mannoheptulose (10 mmol.1(-1) caused a significant reduction in glucose phosphorylation in disrupted islets of adrenalectomized fa/fa and lean, and of control lean rats, but not of control fa/fa rats. These data demonstrate that development of abnormal regulation of glycolysis in pancreatic islet beta cells of fa/fa rats, as indicated by the insulin response to manno-heptulose and glucokinase activity, is dependent on an intact hypothalamo-pituitary-adrenal axis.

Modulation by glucose of insulin secretion and glucose phosphorylating activity in cultured pancreatic islets from obese (fa/fa) Zucker rats

OBJECTIVE

In normal B-cells, glucokinase activity is regulated by glucose. We hypothesized that chronic exposure to low or high glucose levels would regulate glucokinase function and insulin secretion differently in islets of fa/fa compared with lean rats. SUBJECTS, DESIGN, and

MEASUREMENTS

Islets isolated from lean and fa/fa rats (8-12 wk old) were cultured for 1-7 days in low (3.3 mM), moderate (12.5 mM) or supraphysiological (25.0 mM) glucose-supplemented medium. Sensitivity to glucose of hexokinase, glucokinase (by enzyme assay and kinetic analysis), and the insulin response (by radioimmunoassay) were assessed in each group of islets.

RESULTS

Islets of fa/fa rats cultured in 12.5 mM glucose for 1-7 days demonstrated a left-shift in both the EC50 of the insulin response and the Km of glucokinase to glucose. The glucokinase Vmax of fa/fa rat islets was lower under all conditions tested, thereby limiting the potential increase in insulin secretion. When cultured in 3.3 mM glucose for 1-7 days, fa/fa rat islets retained responsiveness to glucose longer and the estimated EC50 for glucose actually declined. However, the glucokinase Km for glucose increased three-fold in both phenotypes cultured in low glucose. Lean and fa/fa rat islets cultured in 25.0 mM glucose demonstrated a paradoxical hypersecretion of insulin to basal glucose concentrations and desensitization to stimulation by high concentrations of glucose. Islets from fa/fa rats were more easily desensitized, with significant effects in 25.0 mM glucose by 3 days compared with 7 days for the lean rat islets. Culture in high glucose erased the phenotype differences in glucokinase Km that were observed in 12.5 mM glucose cultured islets.

CONCLUSIONS

Differences in fa/fa rat islet glucokinase were observed only at moderate, near physiological glucose conditions. Glucokinase activity was similarly affected by low or high glucose in the two phenotypes, although differences in insulin secretion pattern were still detected, leading to the conclusion that factors other than glucokinase contribute to altered insulin secretion in the fa/fa rat. Further study of the glucose desensitization phenomenon in fa/fa rat islets might help unravel the factors that increase susceptibility to development of diabetes mellitus in some phenotypes.

beta-cell stimulus - secretion coupling defects in rodent models of obesity

Hyperinsulinemia accompanies obesity in human patients and experimental rodent models and exacerbates insulin resistance, but the causes of increased insulin secretion remain obscure. This review examines progress in defining biochemical and molecular beta-cell defects that have elucidated in the past 5 years. Some defects, such as decreased glucose transport, decreased mitochondrial FAD-linked glycerophosphate dehydrogenase activity, and altered anomeric specificity for glucose, become evident only after onset of non-insulin-dependent diabetes mellitus. Thus, these defects are unlikely to play a role in the pathogenesis of hyperinsulinemia in obesity. Other biochemical changes, including increased glucokinase and (or) hexokinase function, increased glucose cycling, and altered regulation of intracellular Ca2+ are present in obese nondiabetic animals and may therefore contribute to development of hyperinsulinemia. Few developmental studies have been performed to correlate onset of defects with environmentally and genetically mediated control mechanisms of beta-cell function. However, the availability of new molecular biology techniques should facilitate identification of factors causing hyperinsulinemia in obesity.

Increased glucose phosphorylating activity correlates with insulin secretory capacity of male JCR:LA-corpulent rat islets

In this study the glucose responsiveness of isolated, overnight-cultured islets of obese LA/N-corpulent (cp/cp) rats was compared with glucose phosphorylating activity to determine whether changes in the function of glucokinase could be identified. Islets from both male and female cp/cp rats showed a left-shifted concentration response to glucose, with EC50 values of 1.5 and 4.6 mM, respectively, compared with 9.2 mM for lean control islets. Islets from cp/cp rats were partially resistant to inhibition by mannoheptulose, a glucokinase inhibitor. Minimum inhibitory concentrations were 10 mM in cp/cp vs. 3 mM in lean rat islets. Glucose phosphorylating potential was markedly increased in islets of male cp/cp, but not female cp/cp, compared with lean rats. The maximal velocity (Vmax) of hexokinase was increased 5-fold, while the Km of glucokinase was significantly decreased, in male cp/cp compared with the lean control islets(3.6 vs. 35.2 mM). The Km for glucokinase was also decreased in female cp/cp rat islets (17.2 mM). The data from male cp/cp rat islets are consistent with the idea that increased glucose phosphorylation capacity can contribute to insulin hypersecretion and an extreme leftward shift in the concentration-response curve. However, other factors must also be considered because female cp/cp rats have moderately increased insulin secretory capacity without marked changes in total glucose phosphorylating capacity.

Identification of biochemical defects in pancreatic islets of fa/fa rats: a developmental study

Adult obese (fa/fa) Zucker rats hypersecrete insulin in response to glucose and other secretagogues. Functional changes in islet alpha 2-adrenoceptors (8) and glycolytic regulation (9) have been reported. In this study, the development of these biochemical lesions in islets isolated from suckling (3 week old) and weanling (5 week old) lean and fa/fa rats was investigated and compared to results in adult animals. Glucose (15 mM)-induced insulin secretion was inhibited by mannoheptulose (MH) in lean (n = 8) but not fa/fa (n = 10) adult rats, indicating loss of sensitivity of glucokinase to competitive inhibition. Sensitivity to MH was somewhat reduced in the islets of 3- and 5-week-old fa/fa (n = 7 and 12) compared to lean (n = 15 and 9) rats, requiring 30-100 fold higher concentrations to achieve significant inhibition. At 3 weeks of age fa/fa rats did not differ from lean controls in either islet insulin content or body weight, but both parameters were increased in fa/fa rats by 5 weeks. The presence of altered alpha 2-adrenoceptor function in fa/fa rats could not be confirmed in this study. Unlike the previous report, prazosin did not antagonize alpha 2-agonist mediated inhibition of insulin secretion. The presence of defective regulation of the glycolytic pathway by mannoheptulose in suckling and weanling rats may contribute to development of hyperinsulinemia in fa/fa rats.

Effects of prostaglandins on gastrin release from canine antral mucosal cells in primary culture

Evidence in vivo indicates that endogenous and exogenous prostaglandins can alter gastrin secretion. We have used primary cultures containing canine antral G-cells to study the cellular actions of prostaglandins on gastrin secretion, comparing the effects of prostaglandin E2 (PGE2) and its synthetic analogue enprostil. Enprostil (10(-10)-10(-6) M) inhibited gastrin secretion in response to bombesin, carbachol, and forskolin, the latter a receptor-independent activator of adenylate cyclase. This inhibition by enprostil was reversed by treatment with pertussis toxin (200 ng/ml, 8 h). However, enprostil did not inhibit the postreceptor stimuli 8-bromoadenosine 3',5'-cyclic monophosphate (10(-3) M), calcium ionophore A-23187 (10(-7) M), or 4 beta-phorbol 12-myristate 13-acetate (10(-8) M). In contrast, whereas PGE2 inhibited forskolin-stimulated gastrin release, PGE2 did not inhibit the response to carbachol or bombesin in control cultures. However, in pertussis toxin-treated cultures, PGE2 inhibition was reversed and, in contrast, the responses to bombesin, carbachol, and possibly forskolin were augmented. Indomethacin at a dose of 10(-5) M did not alter basal or bombesin-stimulated gastrin secretion. However, the somatostatin antibody CURE-S6 enhanced the response to forskolin and enhanced inhibition by PGE2, suggesting that endogenous somatostatin produced an inhibitory tone in these cultures and excluding the possibility that PGE2 acted via release of endogenous somatostatin. Our data suggest that in cultured antral cells gastrin release is regulated by inhibitory and stimulatory prostaglandin mechanisms.(ABSTRACT TRUNCATED AT 250 WORDS)

Glucokinase activity in isolated islets from obese fa/fa Zucker rats

Glucokinase (EC 2.7.1.2) activity of B-cells was measured in extracted pancreatic islets isolated from lean and obese fa/fa Zucker rats and maintained in primary culture overnight. Formation of [14C]glucose phosphoric esters from D-[U-14C]glucose was measured in the presence of unlabelled glucose from 0.05 to 0.50 mM for hexokinase (EC 2.7.1.1) activity, and 8.0-16.0 mM unlabelled glucose for glucokinase activity. Eadie-Hofstee analysis revealed that hexokinase kinetic parameters (Vmax and Km) for [14C]glucose phosphoric ester formation were similar in lean- and fa/fa-rat islets. For glucokinase, there was no difference in Vmax. between phenotypes. A non-significant tendency to increased sensitivity to glucose was noted in the fa/fa-rat islets (P = 0.13). In lean-rat islets, the glucokinase inhibitor mannoheptulose (3 mM) decreased Vmax. by 80% and increased the apparent Km from 3.3 +/- 0.7 mM to 12.2 +/- 2.0 mM (P < 0.05). There was no difference in Km or Vmax. in mannoheptulose-treated versus control islets from fa/fa rats. This lack of effect was consistent with reported effects of mannoheptulose on insulin secretion from fa/fa-rat islets [Chan, MacPhail and Mitton (1993) Can. J. Physiol. Pharmacol. 71, 34-39]. The data from glucose and mannoheptulose experiments support the hypothesis that glucokinase function is altered in fa/fa Zucker rats and may contribute to fasting hyperinsulinaemia in vivo in these animals.

Ofloxacin susceptibilities of 5,667 Neisseria gonorrhoeae strains isolated in Hong Kong

Of 5,667 strains of Neisseria gonorrhoeae isolated from the Government Social Hygiene (sexually transmitted disease) Clinics in Hong Kong from 1990 to 1992, there was a trend toward an increase in the percentage of strains resistant in vitro to 0.01 and 0.1 microgram of ofloxacin per ml, with 54.3 and 5.5% resistant strains, respectively, in January 1990, rising to 95.3 and 41.5%, respectively, in December 1992. The percentage of strains for which the MIC is > 1 microgram/ml remains stable, and no clinical failure has yet been seen. This trend of decreasing susceptibility warrants close monitoring when ofloxacin is used as first-line treatment for gonorrhea.

Evidence for defective glucose sensing by islets of fa/fa obese Zucker rats

The hypothesis that a defect in glucose sensing by islets of fa/fa Zucker rats contributes to hyperinsulinemia in these animals was tested. Islets from lean and fa/fa rats were isolated by collagenase digestion and step-density gradient purification and then cultured overnight in Dulbecco's modified Eagle's medium containing 12.5 mM glucose. Obese rat islets were more sensitive to hypoglycemic glucose levels with half-maximal effective concentration (EC50) of 5.6 mM compared with an EC50 of 8.2 mM for lean rat islets. In contrast, responsiveness of both phenotypes to alpha-ketoisocaproate and quinine was similar. Mannoheptulose did not inhibit insulin secretion from fa/fa islets, although inhibitors of later events in the stimulus-secretion coupling pathway were normally inhibited by iodoacetate and diazoxide. Finally, starvation in vivo and culture of islets in low glucose concentrations (5 mM) in vitro both decreased glucose-stimulated insulin secretion from lean but not fa/fa rat islets. We conclude that fa/fa rat islets have an exaggerated insulin response to hypoglycemic stimuli, possibly as a result of a defect in B-cell glucokinase function.

Patterns of antibiotic susceptibility of gonococci isolated in Hong Kong, 1987-1990

Among the 14,528 strains of Neisseria gonorrhoeae isolated from the Government Social Hygiene Sexually Transmitted Disease (STD) Clinics in Hong Kong between 1987 and 1990, there has been a trend toward a decrease in the percentage of penicillin resistant strains in both penicillinase-producing and nonpenicillinase producing N. gonorrhoeae (PPNG and non-PPNG) and an increase in moderate resistant strains, whereas the proportion of sensitive strains has remained stable, except for a small increase in 1990. Presently, PPNG still accounts for 31% of all isolates. In early 1991, 100 consecutive isolates were tested for minimum inhibitory concentrations (MIC) against 6 commonly used antibiotics. Although ofloxacin has been used as the first-line treatment for gonorrhea for the last 5 years, there is still no sign of in vitro resistance. Two isolates with high-level tetracycline resistance (MIC greater than 16 mg/l) were detected that have not been seen before. Sensitivity to spectinomycin, cefuroxime, and ceftriaxone has also been maintained, and these drugs can probably be recommended as alternative treatments in noncompliant cases. Analysis of location of contact shows an increasing proportion of cases of gonorrhea from overseas, particularly from parts of China. Comparison with the limited information published in the region shows that the population sampled can be very heterogeneous. With the continued flux of international travel, one should be extremely careful when trying to get an accurate assessment of epidemiologic data.

Functional characterization of alpha-adrenoceptors on pancreatic islets of fa/fa Zucker rats

Recently, a defect in pertussis toxin-independent actions of epinephrine on pancreatic B-cells of fa/fa Zucker rats was reported (Cawthorn and Chan (1991) Mol. Cell. Endocrinol. 75, 197-204). We now report studies of islet alpha 2-adrenoceptor function of fa/fa rats. Insulin and cAMP production by islets of obese rats were both inhibited by the alpha 2-adrenoceptor agonist clonidine. Calculated pD2 values for clonidine were 9.57 +/- 0.59 and 9.43 +/- 0.33 for lean and fa/fa rat islets, respectively. Yohimbine reversed clonidine effects equipotently in lean and obese rat islets (pA2 values of 7.48 +/- 0.57 vs 7.43 +/- 0.58). Unexpectedly, the alpha 1-antagonist prazosin stimulated insulin secretion from islets of obese but not lean rats. Functional characteristics of the alpha-adrenoceptors on fa/fa islets are thus similar to those recently designated alpha 2B. Altered expression of alpha-adrenoceptors on pancreatic islets of fa/fa rats may contribute to changes in the pertussis toxin-independent pathway of epinephrine action previously observed.

Effect of pertussis toxin on islet insulin secretion in obese (fa/fa) Zucker rats

We used isolated islets of lean and obese Zucker rats to determine whether inhibitory pathways mediated by pertussis toxin-sensitive guanyl nucleotide-binding (Gi) proteins contribute to hyperinsulinemia in obese rats. Epinephrine (10(-4) M) and somatostatin (10(-7) M) inhibited insulin secretion by +/- 75% in lean and fa/fa rats. Overnight culture of islets with pertussis toxin (300 ng/ml) enhanced insulin release more in lean (+/- 120%) than obese (+/- 60%) rats. In lean rats incubation of pertussis toxin-treated islets with epinephrine resulted in lower immunoreactive insulin release (p = 0.0005) than pertussis toxin-treated islets without epinephrine. However, in obese rats pertussis toxin treatment reversed this inhibition. Pertussis toxin completely reversed inhibition by somatostatin in both phenotypes. Galanin had no effect on insulin secretion. Cellular cAMP content was similar in lean and obese rats. Inhibitory hormones had no effect on cAMP production. We conclude that islets of obese rats respond normally to inhibitors of insulin release. Reversal of somatostatin-induced inhibition by pertussis toxin indicates normal function of Gi in obese rats. A subtle difference in sensitivity to pertussis toxin between lean and obese islets was noted.

Gastrin release in obese Zucker rats

In this study, gastrin release in the obese Zucker rat was investigated by in vivo and in vitro experiments. Obese rats exhibited normal plasma gastrin levels at 3 weeks (preobese), were moderately hypergastrinemic at 3 months and severely hypergastrinemic at 5 months, compared to lean littermates. Following oral peptone, plasma gastrin levels doubled in both lean and obese rats. Basal and vagally stimulated gastrin release from perfused stomachs was greater in obese compared to lean rats and atropine had no effect on basal gastrin release in either group. Basal somatostatin release from the perfused stomach was found not to differ in both groups of animals. Morphological studies revealed an increase in the number of gastrin-containing G-cells in adult obese rats compared to lean littermates, but not in 3-week-old pups compared to lean littermates, indicating a strong correlation between cell number and plasma gastrin levels. These data indicate that the obese Zucker rat exhibits fasting hypergastrinemia in vivo, a condition which appears after weaning and increases in severity with age. Gastrin hypersecretion persists from the vascularly perfused stomach preparation. The basal hypergastrinemia of the obese Zucker rat is independent of a hyperactive postganglionic cholinergic drive but is associated with and probably causally related to an increase in antral G-cell numbers.

Pertussis toxin-sensitive cholinergic inhibition of somatostatin release from canine D-cells

Development of an enriched cultured cell system allowed us to investigate the mechanism of cholinergic inhibition of somatostatin release stimulated by adenosine 3',5'-cyclic monophosphate (cAMP) and Ca2+-protein kinase C-dependent pathways of cell activation. After a 24-h culture on rat tail collagen, D-cells, quantified by immunohistochemistry, were 18-fold enriched compared with unelutriated dispersed cells. Somatostatin release from cultured cells was expressed as a percent of the somatostatin released by a specific stimulus in control cells. Under basal conditions release of somatostatin was 2.3 +/- 0.6% of the total cell content. Epinephrine (1 microM) and cholecystokinin octapeptide (10 nM) increased somatostatin release to 6.98 +/- 1.25 and 10.72 +/- 1.64%, respectively. Carbachol (1 microM) completely inhibited somatostatin release stimulated by epinephrine and reduced cholecystokinin octapeptide-stimulated release to 75% of control levels. Carbachol inhibition of the response to both epinephrine and cholecystokinin octapeptide was totally prevented by 5 h of treatment of the cells with pertussis toxin (300 ng/ml). Somatostatin release in response to the diterpene forskolin (10 microM), dibutyryl cAMP (300 microM), the phorbol ester beta-phorbol 12-myristate 13-acetate (0.1 microM), and the calcium ionophore A23187 (1 microM) was also inhibited by carbachol and prevented by pertussis toxin pretreatment. The ADP-ribosylase inhibitor isonicotinamide (1 mM) selectively blocked the effect of pertussis toxin without altering other stimulatory or inhibitory responses. These data are consistent with the view that carbachol inhibits somatostatin release at guanyl nucleotide-binding protein and/or another pertussis toxin-sensitive site.

Multipoint linkage of 9 anonymous probes to HPRT, factor 9, and fragile X

We have analyzed the segregation of restriction fragment length polymorphisms (RFLPs) associated with 9 anonymous probes detecting loci DXS10, DXS15, DXS19, DXS37, DXS51, DXS52, DXS98, DXS99, and DXS100 and probes for HPRT and F9 in a set of 40 families segregating fragile X (fra(X]. Using two-point and multipoint analysis, we have established their relative genetic locations. The results indicate that DXS99 and DXS10, unlike previous reports, are not tightly linked to F9. A new locus was found to map within the F9 - fra(X) region. DXS98 showed 6% recombination with fra(X) and appeared to be the closest locus to fra(X). These results will be useful for mapping the relative position of newly defined X probes in this region and for future genetic studies of families with fra(X), hemophilia B, or Lesch-Nyhan mutations.

Role of the cholinergic nervous system in acid secretion

Stimulation of acid secretion by muscarinic agents involves receptors with a higher apparent affinity to the M1-antagonists, pirenzepine and telenzepine, than those regulating heart rate and salivary secretion. However, the localization of the proposed M1-receptors regulating acid secretion remains unclear. Studies with parietal cells isolated from several species indicate that parietal cells have a muscarinic receptor with low affinity for the M1-antagonists. Our studies with somatostatin cells isolated from canine fundic mucosa indicates that the muscarinic receptor inhibiting somatostatin release also is of low affinity for M1-antagonists. We have found no evidence for regulation of histamine release from canine fundic mast cells, whereas there is evidence that acetylcholine induces histamine release from the enterochromaffin-like cells of the rat and rabbit fundic mucosa. Further studies will be necessary to determine which of the muscarinic receptors potentially involved in the regulation of acid secretion is responsible for the M1-behavior of this pathway.

Further evidence for genetic heterogeneity in the fragile X syndrome

The X-linked fragile X [fra(X)] syndrome, associated with a fragile site at Xq27.3, is the most common Mendelian inherited form of mental deficiency. Approximately 1 in 1060 males and 1 in 677 females carry the fra(X) chromosome. However, diagnosis of carrier status can be difficult since about 20% of males and 44% of females are nonpenetrant for mental impairment and/or expression of fra(X). We analyzed DNA from 327 individuals in 23 families segregating fra(X) for linkage to three flanking polymorphic probes: 52A, F9, and ST14. This allowed probable nonpenetrant, transmitting males and carrier females to be identified. A combined linkage analysis was conducted using these families and published probe information on F9 in 27 other families, 52A in six families, and ST14 in five families. The two-point recombination fraction for 52A-F9 was 0.13 (90% confidence interval, 0.10-0.16), for F9-fra(X) was 0.21 (0.17-0.24), and for fra(X)-ST14 was 0.12 (0.07-0.17). Tight linkage between F9 and fra(X) was observed in some families; in others loose linkage was seen suggesting genetic linkage heterogeneity. Risk analysis of carrier status using flanking DNA probes showed that probable nonpenetrant transmitting males were included in families showing both tight and loose linkage. Thus, in contrast to our previous conclusions, it appears that the presence or absence of nonpenetrant, transmitting males in a family is not an indicator of heterogeneity. To determine if heterogeneity was present, we employed the admixture test. Evidence for linkage heterogeneity between F9 and fra(X) was found, significant at P less than 0.0005. Nonsignificant heterogeneity was seen for 52A-F9 linkage. No heterogeneity was found for fra(X)-ST14. The frequency of fra(X) expression was significantly lower in families with tight F9-fra(X) linkage than in families with loose linkage. Cognition appeared to relate to linkage type: affected males in tight linkage families had higher IQs than those in loose linkage families. These findings of genetic heterogeneity can account in part for the high prevalence and apparent high new mutation rate of fra(X). They will affect genetic counseling using RFLPs. An understanding of the basis for genetic heterogeneity in fra(X) will help to clarify the nature of the unusual pattern of inheritance seen in this syndrome.

The effect of jejunoileal bypass (JIB) in the obese Zucker rat on a sub-group of enteroendocrine cells

The effect of jejunoileal bypass in lean and obese Zucker rats on a number of enteroendocrine cell types was investigated 5 weeks following surgery to remove 80 percent of the small bowel from continuity. The endocrine cells containing somatostatin, cholecystokinin, gastric inhibitory polypeptide, enteroglucagon and neurotensin were investigated. In control rats enteroglucagon cell number was decreased in obese compared to lean animals (5 +/- 1 vs 11 +/- 1 cells/mm). Following jejunoileal bypass the enteroglucagon cell population increased two-fold in both the functional and bypassed bowel in obese rats but was not elevated in lean animals. A significant increase in the number of cholecystokinin cells in the bypassed loop of the jejunum in both lean and obese bypassed rats was observed. The cholecystokinin cell population was also markedly elevated in the functional jejunum of obese but not lean bypassed rats. Only small changes were noted in cell numbers of gastric inhibitory polypeptide, somatostatin and neurotensin containing cells, suggesting that individual cell types have specific stimuli for proliferation. Epithelial height, a measure of intestinal adaptation, was similar in lean and obese rats in both the control and bypassed states, but weight loss in obese bypassed animals was significantly greater than that of lean bypassed rats. The hyperinsulinemia of obese rats was only partially normalized by jejunoileal bypass. These data indicate that jejunoileal bypass has effects on specific enteroendocrine cells which differ between lean and obese Zucker rats, and between individual cell types.(ABSTRACT TRUNCATED AT 250 WORDS)

Variability of thymidylate synthase activity in whole blood cultures treated with FUdR

Induction of some fragile sites including fragile X [fra(X)] depends on the depletion of thymidine monophosphate (TMP) from the culture medium. This can be accomplished by use of inhibitors such as 5-fluorodeoxyuridine (FUdR) and by culturing cells in medium deficient in folate and TMP. FUdR inhibits the activity of thymidylate synthase (TS), thereby depleting cells of TMP. To determine the degree of FUdR inhibition of TS under routine cytogenetic culture conditions, we modified the tritiated dUMP TS method for use in short-term whole blood cultures stimulated with phytohemagglutinin. TS inhibition was highly variable across whole blood cultures from 30 individuals exposed to FUdR during the last 24 hours of a 4 day culture. If an additional dose of FUdR was added 12 hours before harvest, TS inhibition usually increased. These findings have a potential impact on the use of FUdR for the diagnosis of the fra(X) syndrome.

DNA linkage studies in the fragile X syndrome suggest genetic heterogeneity

Previously, we showed genetic heterogeneity for linkage between the fra(X) locus and a factor IX DNA RFLP (Brown et al, 1985). When fra(X) families were predivided into two classes, one containing those with non-penetrant (NP) males and one with apparent full penetrance (P), evidence of significant heterogeneity was present. We have now extended this analysis by adding DNA linkage information on 2 additional probes, 52A and ST14, studied in 16 fra(X) kindreds. These data were combined with information on 16 published fra(X) families. There were 7 NP families and 25 P families. We confirmed our previous findings of a higher recombination fraction between factor IX and fra(X) in P families (0 = .32 with lod of .67) compared to as NP families (0 = .06 with lod of 6.11) which was significant at p less than .01. In comparing recombination fractions for the additional probes, more recombination between 52A and the other loci was consistently seen in P compared to NP families which suggested that there may be a higher rate of recombination proximal to the fra(X) locus in P kindreds. A strikingly higher recombination fraction between 52A and factor IX was present in comparing all fra(X) families (.18) to normal families (.02) which was significant at p less than .001. These results suggest genetic heterogeneity with respect to recombination is present both among fra(X) pedigrees and between fra(X) and normal pedigrees.