Alterations in the growth hormone/insulin-like growth factor I pathways in feline GM1 gangliosidosis

Cats affected with feline GM1 gangliosidosis, an autosomal, recessively inherited, lysosomal enzymopathy, have progressive neurological dysfunction, premature thymic involution, stunted growth, and premature death. Although increased membrane GM1 gangliosides can result in increased apoptosis of thymocytes, there is not a direct correlation between thymocyte surface GM1 and thymic apoptosis in vivo, suggesting that other factors may be important to the pathogenesis of thymic involution in affected cats. Because GH and insulin-like growth factor I (IGF-I) are important hormonal peptides supporting thymic function and affecting growth throughout the body, particularly in the prepubescent period, several components of the GH/IGF-I pathway were compared in GM1 mutant and normal age-matched cats. GM1 mutant cat serum IGF-I concentrations were reduced significantly compared with those in normal cats by 150 days of age, and GM1 mutant cats had no peripubertal increase in serum IGF-I. Additionally, IGF-binding protein-3 was reduced, and IGF-binding protein-2 was elevated significantly in GM1 mutant cats more than 200 days of age. Liver IGF-I messenger RNA and pituitary GH messenger RNA both were reduced significantly in GM1 mutant cats. After stimulation by exogenous recombinant canine GH, serum IGF-I levels increased significantly in GM1 mutant cats, indicating that GH/IGF-I signaling pathways within the liver remain intact and suggesting that alterations are external to the liver.

Underlying disease stress augments plasma and tissue adrenomedullin (AM) responses to endotoxin: colocalized increases in AM and inducible nitric oxide synthase within pancreatic islets

Rapid onset metabolic impairments accompany the initiation of the acute phase response to many disease stresses, whereas more chronic metabolic perturbations may prolong the recovery period. In the present experiment the application of a mild endotoxin challenge [lipopolysaccharide (LPS)] alone or additive to a chronic subclinical parasitic infection (Sarcocystis cruzi; LPS + PI) in calves was used as a model to investigate and define a dynamic axis coordinated between adrenomedullin (AM) and nitric oxide in response to immune challenge. Plasma AM and NO2/NO3 concentration responses after LPS (0.45 microg/kg, iv) were rapid in onset and of higher magnitude and longer duration in PI + LPS calves than in those challenged with LPS alone. The post-LPS increase in plasma insulin was significantly greater in PI + LPS than in LPS; following refeeding of calves, insulin secretion was most blunted in PI + LPS calves, consistent with the inhibitory effects of NO and AM on insulin secretion. A more chronic response to the immune challenge (organ specific) was in evidence in tissues harvested 24 h after LPS challenge. Where lung and liver showed no immunostaining for inducible nitric oxide (iNOS), iNOS immunostaining was present in the pancreas, localized to islets only. The percentages of iNOS-immunopositive cells in islets were 1.7%, 21%, 6.7%, and 24% for control (C; saline infused), PI, LPS, and PI + LPS calves, respectively. AM immunostaining was not evident in the liver and was present, but not differentially affected by treatment, in airway epithelium in the lung. The number of islet cells with positive immunostaining for AM was increased in LPS, PI, and PI + LPS calves. The percentages ofAM-immunopositive cells in islets were 8%, 27%, 20%, and 33% for C, PI, LPS, and PI + LPS, respectively. Immunostaining for AM and iNOS was colocalized with cells positive for pancreatic polypeptide. By triple label confocal fluorescence immunocytochemistry, colocalization of intense AM and iNOS immunostaining was confirmed in peripheral islet cells. A weaker, more diffuse iNOS signal was also apparent in insulin-containing cells in PI + LPS. We conclude that chronic low level infection potentiates the severity of metabolic perturbations that arise with additive sudden onset immune challenge, as can occur with bacterial toxins. These metabolic disturbances are reflected in and possibly mediated by early onset increases in plasma tumor necrosis factor-alpha, insulin, and AM and up-regulated iNOS activity. These acute complications rapidly progress into a more chronic state characterized by diminished insulin response to feeding stimulus and colocalized increases in pancreatic islet AM and iNOS. The pancreatic responses in AM and iNOS may play a major role in mediating prolonged disturbances in nutrient use by tissues through their influences on temporal patterns of pancreatic hormone secretion during chronic illness.

Neuropeptide Y restores appetite and alters concentrations of GH after central administration to endotoxic sheep

The objective of this study was to determine whether neuropeptide Y (NPY) and recombinant human interleukin-1 receptor antagonist (IL-1ra) would: first, increase food intake; secondly, decrease concentrations of GH; thirdly, reduce GHRH-induced release of GH; and fourthly, reduce changes to concentrations of IGF-I in plasma during experimental endotoxemia in sheep. Six treatments were given to six castrated male sheep in a 6x6 Latin square treatment order. Osmotic mini-pumps were implanted at 0 h and a jugular vein was cannulated. Each sheep was continuously infused with saline (0.9%) or lipopolysaccharide (LPS) (20 micrograms/kg per 24 h, s.c.) at 10 microliters/h for 72 h via the osmotic mini-pumps. Blood samples (3 ml) were collected at 15-min intervals from 24 to 33 h. At 26 h, one of three treatments (artificial cerebrospinal fluid, NPY or IL-1ra) was injected i.c.v. within 30 s (0.3 microgram/kg), then infused i.c.v. from 26 to 33 h (600 microliters/h) at 0.3 microgram/kg per h. GHRH was injected i.v. (0.075 microgram/kg) at 32 h after which blood samples were collected at 5, 10, 15, 30, 45 and 60 min. Feed intake was reduced up to 50% for 48 h in LPS-treated compared with non-LPS-treated sheep. NPY restored feed intake in LPS-treated sheep and induced hyperphagia in non-LPS-treated sheep from 24 to 48 h. In contrast, IL-1ra did not affect appetite. Injection of NPY increased concentrations of GH from 26 to 27 h, while IL-1ra had no effect. Infusion of NPY suppressed GHRH-induced release of GH. However, no treatment altered pulse secretion parameters of GH. Concentrations of IGF-I were 20% higher at 72 h in LPS-treated sheep given NPY than in sheep treated with LPS alone, and this may reflect increased appetite from 24 to 48 h. We concluded that reduced appetite during endotoxemia is due to down-regulation of an NPY-mediated mechanism. Furthermore, NPY stimulates release of GH in healthy sheep, does not reduce pulse secretion parameters of GH, but does suppress GHRH-induced release of GH in endotoxic sheep. Therefore, NPY may be an important neurotransmitter linking appetite with regulation of GH during endotoxemic and healthy states in sheep.

Estradiol/progesterone implants increase food intake, reduce hyperglycemia and increase insulin resistance in endotoxic steers

High doses of lipopolysaccharide (LPS) induce transient hyperglycemia, then chronic hypoglycemia and increased insulin resistance. In addition, appetite is reduced, while body temperature and concentrations of cortisol and tumor necrosis factor alpha (TNFalpha) are elevated. Furthermore, concentrations of GH and IGF-I are reduced in cattle. The objectives of this study were to determine whether a gonadal steroid implant (20 mg estrogen and 200 mg progesterone) given to endotoxemic steers would: (1) reduce hyperglycemia, reduce hypoglycemia, reduce insulin resistance, (2) reduce changes in concentrations of GH and IGF-I, (3) reduce inappetence and reduce concentrations of blood urea nitrogen (BUN) and non-esterified fatty acids (NEFA), and (4) reduce fever and concentrations of TNFalpha and cortisol. Holstein steers were assigned within a 2x2 factorial arrangement of treatments as follows (n=5 per group): C/C, no steroid and vehicle; S/C, steroid and vehicle; C/E, no steroid and LPS (1 microg/kg body weight (BW), i.v.); S/E, steroid and endotoxin. Steroid implants were given at 20 weeks of age (day 0) and serial blood samples (15 min) were collected on day 14 for 8 h, with vehicle or LPS injected after 2 h. Intravenous glucose tolerance tests (100 mg/kg BW) were carried out at 6 h and 24 h. Hyperglycemia was 67% lower (P<0.05) in S/E- compared with C/E-treated steers between 30 and 150 min after i.v. injection of LPS. Hypoglycemia developed after 4 h and insulin resistance was greater in S/E- compared with C/E-treated steers (P<0. 05) at 6 and 24 h. Concentrations of IGF-I were restored earlier in steroid-treated steers than in controls. Concentrations of GH were not affected by steroids, but increased 1 h after injection of LPS, then were reduced for 2 h. Appetite was greater (P<0.05) in S/E- (2.1% BW) compared with C/E-treated steers (1.1% BW) (pooled s.e.m.=0.3). Concentrations of NEFA increased after injecting LPS, but concentrations were lower (P<0.05) in S/E- compared with C/E-treated steers. LPS did not affect concentrations of BUN, but concentrations were lower in steroid-treated steers. Steroids did not affect body temperature or concentrations of TNFalpha and cortisol. In summary, gonadal steroids reduce hyperglycemia, reduce inappetence and tissue wasting, but increase insulin resistance. Furthermore, concentrations of IGF-I are restored earlier in steroid-treated than in non-steroid-treated steers injected with LPS. It is concluded that gonadal steroids reduce severity of some endocrine and metabolic parameters associated with endotoxemia. However, it is unlikely that gonadal steroids acted via anti-inflammatory and immunosuppressive actions of glucocorticoids or through reducing concentrations of cytokines.

Effects of interleukins on secretion of luteinizing hormone from ovine pituitary cells

OBJECTIVE

To determine whether cytokines of homologous species might mediate the stimulatory effects of endotoxin on release of luteinizing hormone (LH) from pituitary cells.

SAMPLE POPULATION

Cells from pituitary glands collected from 8- to 14-month-old wethers.

PROCEDURE

Cells from the anterior pituitary gland were cultured in the presence of recombinant ovine or bovine cytokines (interleukin [IL]-1alpha, IL-1beta, and IL-2), tumor necrosis factor-alpha (TNF), and interferon-gamma (IFN-gamma). Luteinizing hormone that was released into the medium was measured. Cells were also cultured with modulators of signal transduction pathways to evaluate the second messenger system used by IL-1 alpha and IL-1beta.

RESULTS

Similar to effects of endotoxin, IL-1alpha and IL-1beta stimulated release of LH. Interleukin 2, TNF, and IFN-gamma did not have a detectable effect on release of LH. Stimulation of LH release by IL-1alpha and IL-1beta required activation of voltage-dependent Ca2+ channels and appeared to involve protein kinase C.

CONCLUSIONS

IL-1alpha and IL-1beta may mediate the direct stimulatory effect of endotoxin on release of LH in vitro. Interleukin 2, TNF, and IFN-gamma do not have a direct effect on release of LH; therefore, they do not mediate this effect of endotoxin.

CLINICAL RELEVANCE

Stressors, including infection, are often associated with reduced fertility. Infection resulting in endotoxin release, production of interleukins, or both, can lead to direct stimulation of LH release from the pituitary gland. Inopportune release of LH via cytokines may interfere with normal pulsatile release of LH, thereby suppressing gonadal function.

Cytokine-mediated growth hormone release from cultured ovine pituitary cells

Previous studies have demonstrated that intravenous lipopolysaccharide (LPS) will increase concentrations of growth hormone (GH). One possible explanation for this may reside in the response of the pituitary to specific cytokines. This study sought to determine the effects of recombinant bovine tumor necrosis factor alpha (TNF), recombinant ovine (ro) interleukin-1alpha (IL-1alpha), roIL-1beta, ro interleukin-2 (IL-2), and ro gamma-interferon (INT) on GH release from cultured sheep pituitary cells. Sheep were sacrificed and pituitary cells cultured in DMEM with 10% fetal bovine serum for 3 days. On day 4, cells were washed and serum-free DMEM added to cells. IL-1alpha and IL-1beta were used at 0.2, 2 and 20 ng/ml and the remaining cytokines at 2, 20 and 200 ng/ml. Neither IL-2 nor INT had effects on basal or on GH-releasing hormone (GRH)-stimulated GH release. TNF inhibited GRH-stimulated GH release (p < 0.05). Both IL-1alpha and IL-1beta stimulated GH release from cultured pituitary cells at all doses tested (p < 0.01). Neither IL-1alpha nor IL-1beta had an effect on GRH-stimulated GH release. IL-1 effects were inhibited by H-89 (p < 0.05; a protein kinase A inhibitor) and by nifedipine (p < 0.05; a calcium channel blocker). Both of these mechanisms are central signal transduction mechanisms mediating GRH-stimulated GH release. IL-1-stimulated GH release is partially inhibited (p < 0.05) by lipoxygenase pathway blockers. Phorbol myristate acetate downregulation of protein kinase C did not alter IL-1-stimulated GH release. IL-1beta increased the content of both GH and GH mRNA in cultured sheep pituitary cells. We conclude that IL-1 produces a strong stimulus to GH release, which is mediated by calcium entry and protein kinase A activation. IL-1 also activates lipoxygenase pathways. This latter pathway as well as calcium entry were shown to mediate LPS stimulation of GH release from cultured pituitary cells. The similarity between IL-1 and LPS signal transduction suggests that LPS may activate pituitary production of IL-1 to produce the stimulus to GH. The lack of inhibitory effects of INT, TNF and IL-2 as opposed to what is seen in the rat may suggest a partial mechanism to explain the different effects of LPS on GH release between sheep and that seen in cattle and rats.

Endocrine modulation of physiological responses to catabolic disease

Disease or endotoxemia alters the plasma concentrations of anabolic hormones, particularly growth hormone (GH) and insulin-like growth-factor I (IGF-I). In general, these hormones are inhibited during the catabolic disease state. A hypothesis has evolved that anabolic hormones might be useful in patients' recovery under these and other catabolic circumstances. The treatment of cattle with GH has provided significant improvement in the physiological response of the animals to the subsequent injection of bacterial lypopolysaccharide (LPS), perhaps via inhibition of tumor necrisis factor (TNF) release. However, this improved response to disease was not observed with animals treated with GH and infected with one of two parasitic organisms, Sarcocystis cruzi or Eimeria bovis. Recent attempts with other anabolic hormones, estradiol and progesterone, have proven remarkably effective in improving the adaptive physiological responses of calves to either E. bovis infection or to the injection of LPS. All animals displayed signs of infection, but the intensity and duration of symptoms were reduced. Although a mechanism is not yet known, there were no effects on TNF; cortisol; the percentages of lymphocytes expressing CD2, 4, or 8 antigens; or the production of antibodies.

Changes in somatotropic axis response and body composition during growth hormone administration in progressive cachectic parasitism

A multistage protozoan parasitic disease was used as a cachexia model to study the effects of daily administration of bovine growth hormone (GH) on endocrine and body composition changes of young calves from the onset of the acute phase response (APR). Male calves averaging 127.5 +/- 2.0 kg body weight were assigned to control, ad libitum fed, noninfected (C); ad libitum fed, infected (250,000 oocysts Sarcocystis cruzi, per os, I); noninfected, pair-fed (PF) to matched I-treatment calves and these respective same treatments in calves injected daily with GH (USDA-bGH-B1), 12.5 mg/calf/day, im) designated as CGH, IGH and PFGH. GH injections were initiated on Day 20 postinfection (PI), 3 to 4 d before the onset of clinical signs of APR, and continued to Day 56 PI, at which time animals were euthanized for tissue collections. Abrupt increases in rectal temperature commensurate with up to 70% reduction in voluntary feed intake were observed in I and IGH beginning 23-25 d PI. For the trial period between Days 20 and 56 PI, average daily carcass protein gains were 123, 52, 109, 124, 48, and 67 g/d and average daily carcass fat gains were 85, 11, 43, 71, -23, and 29 g/d for C, I, PF, CGH, IGH, and PFGH, respectively. Effects of GH were significant for fat accretion and plasma urea depression. Rectus femoris was highly refractory to catabolic effects of infection while psoas major was significantly catabolized during infection. Plasma concentrations of insulin-like growth factor-I (IGF-I) increased significantly in all GH-treated calves between Day 20 and 23 PI. Plasma IGF-I declined well below Day 20 values in all infected calves from the onset of the APR through the end of the study. The decrease in plasma IGF-I concentrations in I and IG was highly correlated with the magnitude of the fever response. Hepatic mRNA for GH receptor and IGF-I was decreased in infected calves. Hepatic microsomal membrane binding of 125I-GH did not differ between groups. The data suggest that effects of GH and parasitism on tissue metabolism during disease may vary among different specific tissue pools. The data demonstrate that daily GH administration in young calves does not prevent lean tissue losses and may accelerate fat depletion associated with cachectic parasitism. Furthermore, the onset of APR overrode the capacity for GH to maintain elevated plasma concentrations of IGF-I, an effect not readily explained through changes of GH-receptor binding.

Nitrogen metabolism and hormonal responses of steers fed wheat silage and infused with amino acids or casein

Four Holstein steers (159 kg) surgically fitted with abomasal-infusion cannulas were used in a 4 x 4 Latin square study to test amino acid (AA) and casein (CAS) infusions on nitrogen balance and hormonal status of steers consuming vegetative wheat (Triticum aestivum L.) silage (12.3% CP). Treatments were 5-d infusions of 1) water (CONT), 2) arginine (ARG; 13.69 g/d), 3) limiting amino acids (LAA, 13.69 g/d arginine + 10.92 g/d histidine + 28.97 g/d lysine + 10.88 g/d methionine + 16.96 g/d threonine, and 4) Na-CAS (300 g/d). Whole blood was collected for plasma AA, growth hormone (GH), insulin, and IGF-I concentrations. Data were analyzed by ANOVA, and the following orthogonal contrasts were used to separate treatment means: CONT vs ARG; ARG vs LAA; and LAA vs CAS. Urinary N increased (P < .02) for CAS vs LAA. Arginine increased N retention, as did CAS, compared to LAA. Total plasma essential AA were decreased by arginine. Mean plasma insulin concentrations were increased by CAS (P < .034). Arginine increased mean plasma GH levels, but not IGF-I. The CAS treatment increased (P < .015) IGF-I levels, but not GH. These data suggest that performance of steers fed wheat silage was limited by duodenal AA flow and that arginine was the first-limiting AA. Casein infusion increased plasma insulin and IGF-I, which would explain the improved growth noted in calves and lambs fed forages supplemented with ruminally undegraded protein.

Hormonal modulation of the physiologic responses of calves infected with Eimeria bovis

OBJECTIVE

To determine whether an estradiol-progesterone (EP) growth implant would have an effect on febrile responses and on the catabolic component of Eimeria bovis infection.

ANIMALS

27 Holstein bull calves.

PROCEDURE

Calves were assigned to treatment groups as: control (n = 5), EP implant (EP, n = 5), E bovis-inoculated (coccidia: C, n = 7), pair fed (n = 4), or EP plus E bovis-inoculated coccidia (EP/C, n = 6) groups. Calves were provided subcutaneous EP implants at 8 weeks of age, and were inoculated with 2 x 10(5) oocysts of E bovis at 11 weeks of age. Body weight was measured on postinoculation day (PID) 0, 14, and 28. Rectal temperature and food intake were determined and fecal samples were collected daily from PID 15 to 28. Blood samples were collected on PID 24 for analysis of CD2+, CD4+, and CD8+ antigens and plasma insulin-like growth factor I concentration. Blood samples were collected at 15-minute intervals for measurement of pulsatile growth hormone release.

RESULTS

Group-EP/C calves had fever for 2 days versus 5 days for group-C calves (P < 0.05). These calves had diarrhea for fewer days than did their group-C counterparts (P < 0.05). Fibrinogen and glucose values were high in group-C (P < 0.05) but not group-EP/C calves. The latter had positive weight gain from PID 14 to 28, whereas group-C calves had weight loss (P < 0.05). Plasma insulin-like growth factor I concentration was reduced by infection (P < 0.05). EP-treated noninfected calves had increased numbers of CD2+, CD4+, and CD8+ blood mononuclear cells (P < 0.05).

CONCLUSIONS

EP has a protective effect in calves infected with E bovis. This may relate to changes in immune function induced by EP.

CLINICAL RELEVANCE

Treatment of calves with EP could offer some protection against the often severe wasting and debilitation associated with E bovis infection.

Plasma concentrations of prolactin, growth hormone, and luteinizing hormone in steers administered ergotamine or ergonovine

This research investigated whether ergot alkaloids associated with endophyte-infected tall fescue could alter plasma concentrations of pituitary hormones that regulate biological processes related to cattle performance. Seven Angus yearling steers received single i.v. injections of ergotamine tartrate, ergonovine maleate, or saline vehicle in a simple cross-over design. Each steer was given a different compound each week. Blood samples were collected at 15-min intervals for 45 min before and 240 min after treatments to assess plasma concentrations of prolactin, growth hormone, and LH. Respiratory rates were measured hourly to ascertain a systemic effect. Ambient temperature averaged 34 degrees C during data collection. Treatment x time was a significant source of variation for respiration rate and plasma concentrations of each hormone evaluated. Respiration rates were higher for ergonovine than for saline (P < .02) and ergotamine (P < .07) 30 min after treatment, but they were higher (P < .05) for ergotamine than for ergonovine and saline by 210 min after treatment. Both alkaloids transiently elevated (P < .01) plasma growth hormone concentrations compared with before alkaloid treatment and after saline treatment. Ergotamine reduced (P < .01) plasma concentrations of prolactin and LH throughout the 120-min period after treatment compared with concentrations before ergotamine treatment and after saline treatment. Ergonovine lowered (P < .01) prolactin concentrations for a shorter time than ergotamine and did not affect mean LH concentrations. Results indicated that ergot alkaloids implicated as contributing agents to fescue toxicosis can alter plasma concentrations of pituitary hormones important to cattle production.

Endotoxin stimulates in vitro pituitary growth hormone release in eicosanoid-dependent manner

OBJECTIVE

To investigate the signal transduction pathways by which endotoxin stimulates in vitro pituitary cell growth hormone (GH) release.

ANIMALS

Pituitary cell cultures derived from 6 sheep.

PROCEDURE

Signal transduction pathways involved in endotoxin-mediated GH release from sheep pituitary cell cultures were evaluated by the use of specific blockers of arachidonic acid and its metabolites, extracellular calcium, protein kinase C, and protein kinase A. Cell cultures were exposed to the specific blockers in the presence or absence of endotoxin (Escherichia coli O55:B5, 10 micrograms/ml) for 24 hours. In addition, effects of endotoxin on GH cell content and GH mRNA values were determined.

RESULTS

Nordihydroquairetic acid (lipoxygenase blocker, 10 microM, 30 microM) and eicosatetraynoic acid (arachidonic acid competitor, 10 microM) decreased endotoxin-stimulated GH release. The calcium channel blocker verapamil (25 microM) decreased baseline and endotoxin-stimulated GH release. Phorbol myristate acetate-induced down-regulation of protein kinase C, indomethacin, or the protein kinase A blocker H89 did not alter endotoxin-stimulated GH release. Endotoxin increased GH mRNA values by 50.1 +/- 6.0%, but the cell content of GH was not affected.

CONCLUSIONS

A direct effect of endotoxin on the pituitary gland to stimulate GH secretion was evident, an effect mediated predominantly by arachidonic acid and its metabolites through the lipoxygenase pathway. Endotoxin-stimulated GH release requires extracellular calcium and is associated with increased cell GH mRNA content.

CLINICAL RELEVANCE

A better understanding of the signal transduction pathways involved in endotoxin-mediated effects will allow more appropriate therapeutic intervention in clinical cases of endotoxemia.

Interaction of cyclic AMP- and calcium-dependent mechanisms in the regulation of growth hormone-releasing hormone-stimulated growth hormone release from ovine pituitary cells

Growth hormone-releasing hormone (GHRH)-stimulated growth hormone (GH) release from the sheep pituitary is mediated through Ca(2+)-and cyclic AMP-dependent mechanisms. The initial Ca2+ influx is suggested to result from depolarization, whereas a secondary Ca2+ influx is thought to result from second messengers. This study sought to determine whether there was an interaction between these two signal transduction pathways. Sheep pituitary cells were placed in culture for 4 d and were then washed and incubated for 1 hr in serum-free medium before the application of specific antagonises and/or agonists. Both KCl and forskolin stimulated GH release (P < 0.05), but neither produced an effect similar to that of GHRH. The combination of both stimuli, however, mimicked GH release, as seen with a maximal dose of GHRH. Pretreatment with H89 (protein kinase A [PKA] inhibitor) inhibited GHRH, forskolin- and KCl-stimulated GH release (P < 0.001) but had no effect on phorbol myristate acetate (PMA)-stimulated GH release. Verapamil (voltage-dependent Ca2+ channel blocker) inhibited the GHRH effects on GH release (P < 0.0002) but did not influence forskolin or PMA actions. These data suggest that Ca(2+)-dependent pathways converge with cyclic AMP-dependent pathways before or with the activation of PKA. The data also suggest that PKA activation by cyclic AMP alone is insufficient to reproduce either the effects of GHRH stimulation or the combined effects of Ca2+ influx plus PKA activation on GH release. A calmodulin blocker, W7, reduced GHRH-stimulated GH release, a reduction equivalent to the Ca2+ effect on GH release. This suggests that Ca2+ activates calmodulin, which in turn enhances adenylyl cyclase and/or PKA activity to release GH from the sheep pituitary.

The effects of bovine somatotropin (bST) and porcine somatotropin (pST) on growth factor and metabolic variables in horses

Effects of exogenous pST and bST on metabolic and growth factor variables were examined in three studies with lighthorse mares (455 to 545 kg). In Study 1, eight mares received five s.c. injections of bST or pST (30 mg/d). In Studies 2 and 3, five mares received one s.c. injection of a prolonged release formulation designed to deliver 500 mg of bST (Study 2) or pST (Study 3) over 14 d. Blood samples were collected for several days before injection to establish baseline values, at frequent intervals during treatment, and for several days thereafter. In all studies, blood urea nitrogen concentrations were decreased (P < .001) and insulin-like growth factor I (IGF-I) concentrations were increased (P < .001) within 48 h after bST or pST injection relative to pretreatment values. Similarly, insulin and glucose were increased (P < .001) relative to pretreatment values, after bST or pST administration. In Studies 2 and 3, circulating ST concentrations were increased (P < .001) for at least 14 d after injection, despite severe local tissue reactions at the prolonged release formulation injection site. Insulin-like growth factor I ligand blotting of serum revealed bands with molecular weights (MW) of 45, 32, 30, and 18 kDa, and two bands of > 96 kDa. These results indicate that 1) bST and pST are biologically active in horses, which respond metabolically to exogenous ST in a manner similar to other mammalian species, 2) circulating IGF binding proteins are present in horses, and 3) the commercially available dairy cow product POSILAC (Monsanto, St. Louis, MO) is not appropriate for the delivery of bST in horses due to injection site reactions accompanying the administration of the oil-based prolonged release formulation.

Luteinizing hormone releasing hormone, estrogen, and progesterone receptors in canine mammary lesions and tumor cell lines

Nineteen canine mammary lesions were analyzed for estrogen receptor (ER), progesterone receptor (PR) and luteinizing hormone releasing hormone receptor (LHRHR) content. In addition, nine previously established canine mammary tumor cell lines with known ER and PR were analyzed for LHRHR. The incidence of receptors in the mammary tumor lesions was 21% for LHRHR, 10% for ER and 30% for PR. Statistical correlation was not observed between receptor status and diagnosis of malignant, benign, or hyperplastic lesions. A relationship between LHRHR and ER and PR content of canine mammary lesions or cell lines was not evident. The presence of functional hormone receptors offers opportunity for hormonal treatment of mammary cancer which may not be completely treatable by surgery. The observation of LHRHR in canine mammary tumors may offer therapeutic interventions other than surgery for mammary tumors unresponsive to antiestrogens.

Effects of short-term cortisol infusion on growth hormone-releasing hormone stimulation of growth hormone release in sheep

Excess production or long-term administration of glucocorticoids is detrimental to longitudinal growth in people and rats. A portion of this effect is attributed to cortisol inhibition of growth hormone (GH). Glucocorticoid effects are usually studied in subjects under long-term treatment with synthetic, more potent glucocorticoids, and, to the authors' knowledge, have not been examined in domestic animals. We sought to examine the effects of cortisol infusion on GH release in sheep. Cortisol infusion into castrated, male Suffolk sheep (1 to 1.5 years old) caused a significant (P < 0.0001) increase in cortisol concentration. Basal GH release was not affected over the 4-hour period of infusion. Growth hormone-releasing hormone administration stimulated GH release in both groups (P < 0.001); however, the control group had a greater response to growth hormone-releasing hormone than did the cortisol infused group (P < 0.0001). These results were duplicated in cultured sheep pituitary cells. Cortisol inhibition of GH release may be mediated via enhanced somatostatin release, owing to a direct inhibition of somatotrope function, or a combination of both mechanisms. Because of effects of stress and disease in increasing cortisol concentration, additional study of the mechanisms for cortisol inhibition of GH release in sheep needs to be performed.

Neurotransmitter receptor agonists regulate growth hormone gene expression in cultured ovine pituitary cells

The regulation of growth hormone (GH) secretion and GH mRNA content by the dopaminergic agonist, bromocriptine (BRO); the beta-adrenergic agonist; isoproterenol (ISO); the alpha 1-adrenergic agonist, methoxamine (MET); the alpha 2-adrenergic agonist, clonidine (CLON); the serotonergic agonist, quipazine (QUIP); somatostatin (SS) and GH-releasing hormone (GHRH) were studied using cultured ovine anterior pituitary cells. Clonidine and BRO (10(-6) M) inhibited basal and GHRH (10(-10) M)-stimulated GH release. Bromocriptine enhanced GH mRNA content and potentiated the GHRH (10(-8) M)-stimulated content of GH mRNA, while CLON had no effect on GH mRNA. Quipazine had little effect on GH secretion and no effect on GH mRNA content. Methoxamine and ISO (10(-6) M) increased basal secretion of GH and both enhanced GHRH-stimulated GH secretion. Both MET and ISO increased GH mRNA content of cultured ovine pituitary cells. Somatostatin (10(-7) M) inhibited GHRH-stimulated GH secretion and GH mRNA accumulation. These results support the hypothesis that neurotransmitters may regulate or interact to further modulate pituitary hormone release. Moreover, the data indicate that neurotransmitters may not only regulate secretion but also regulate GH mRNA content and thus affect hormone synthesis.

Cortisol inhibition of growth hormone-releasing hormone-stimulated growth hormone release from cultured sheep pituitary cells

Cortisol inhibits growth hormone (GH) release in short-term culture and is stimulatory in long-term cultures of rat and human pituitary cells. This study sought to determine the in vitro effects of cortisol on GH release and the signal transduction pathways mediating the effects of cortisol on GH release from cultured ovine somatotrophs. Pituitary cells were dispersed with collagenase and placed in culture medium for 4 days. The data indicate that cortisol inhibited growth hormone-releasing hormone (GHRH)-stimulated GH release by at least 2 h. In short-term culture GHRH-, forskolin- and dibutyryl cyclic AMP-stimulated GH release were inhibited by cortisol, suggesting an effect distal to the membrane and involving a protein kinase A (PKA)-dependent pathway. GH release initiated by KCl was inhibited by cortisol, but GH release caused by the calcium ionophore A23187 was unaffected. This suggests a possible action of cortisol on the calcium channels. The inhibition by cortisol of the calcium-dependent secretion of GH release appeared to play a smaller role in mediating cortisol inhibition of GH release than that seen with PKA. Attempts to overcome cortisol inhibition of GH release using puromycin, arachidonic acid or pertussis toxin were unsuccessful. Since cortisol inhibition of GH release does not occur via the mechanisms found in other cell types, cortisol inhibition of pituitary cell secretions appears to be cell-specific rather than utilizing a single inhibitory mechanism. The majority of cortisol actions on the somatotroph appear to act at a site distal to the production of cyclic AMP.(ABSTRACT TRUNCATED AT 250 WORDS)

Hypothalamic peptide regulation of ACTH secretion from sheep pituitary

The relative abilities of the hypothalamic peptides corticotropin-releasing factor (CRF), arginine vasopressin (AVP), oxytocin (OT), and angiotensin II (ANG II) to stimulate adrenocorticotropic hormone (ACTH) secretion from cultured sheep anterior pituitary cells were studied. Incubation of cells with CRF, AVP, and OT, but not ANG II, was associated with increased ACTH secretion. CRF and AVP were equally effective in stimulating ACTH release at 0.1 nM, but larger doses of each resulted in distinctly different ACTH secretory patterns. The minimally effective dose of OT was 10 nM; greater doses of this peptide resulted in ACTH secretory responses similar to those measured after addition of AVP. Cotreatment with ANG II did not affect the ACTH-secretory response to CRF, AVP, or OT. These data confirm that AVP is a potent stimulus for ACTH secretion from sheep anterior pituitary in vitro and also show that CRF is effective in low concentrations in releasing ACTH. In contrast, the data do not support a regulatory role for ANG II in stimulating ACTH release directly from sheep corticotroph cells.

Effect of endotoxin on pituitary hormone secretion in sheep

Endotoxin, a potent stimulator of the immune system and an important mediator in the pathophysiology of septic shock, has been shown to alter the release of certain hormones following its systemic administration. The purpose of this study was to determine the effects of endotoxin on pituitary hormone secretion both in vivo and in vitro in sheep, with emphasis placed on its effects on growth hormone (GH) release. Endotoxin (400 ng/kg i.v.) increased plasma GH, adrenocorticotropic hormone (ACTH), cortisol and prolactin, while it decreased luteinizing hormone (LH) pulse frequency (p < 0.05). Plasma levels of tumor necrosis factor, a major mediator of endotoxin effects, also increased following endotoxin administration. Endotoxin did not affect the GH response to human GH-releasing hormone. In vitro studies evaluated the effect of endotoxin to alter GH secretion from dispersed sheep anterior pituitary cells at dosages of 1, 10 and 50 micrograms/ml, with samples collected at 4, 8 and 24 h. Endotoxin increased pituitary GH secretion at 24 h for 1 microgram/ml (p < 0.05) and at all time periods for 10 and 50 micrograms/ml (p < 0.05). It also led to an increased release of ACTH and LH in vitro. The results of this study demonstrate the ability of endotoxin to alter pituitary hormone secretion both in vivo and in vitro in sheep, suggesting a direct effect of endotoxin on the pituitary gland.

Domperidone treatment enhances corticotropin-releasing hormone stimulated adrenocorticotropic hormone release from the dog pituitary

While dopamine (DA) is known to inhibit pituitary intermediate lobe proopiomelanocortin (POMC) peptide secretion and synthesis in most species, its influence on anterior-lobe (AL) POMC peptide synthesis and secretion is less clear. We, therefore, sought to determine the effects of daily treatment with the DA receptor antagonist, domperidone (DOM), on secretion of the POMC peptides adrenocorticotropic hormone (ACTH) and alpha-melanocyte-stimulating hormone (alpha-MSH) from the dog pituitary, and on concentrations of another pituitary hormone regulated by DA, prolactin (PRL). Dogs treated for 7 days with DOM had significantly higher peak ACTH concentrations in response to corticotropin-releasing hormone (CRH) injection (329 +/- 37 pg/ml, mean +/- SD) than did controls (164 +/- 42 pg/ml). PRL was also significantly (p < 0.05) increased in samples collected on a daily basis after DOM injections (9.5 +/- 4.6 vs. 4.3 +/- 3.3 ng/ml in controls). However, plasma alpha-MSH concentrations were unaffected by DOM. In a subsequent study, dogs were again treated daily with DOM or vehicle (controls), and additionally were given dexamethasone (DEX) to block AL ACTH release. DEX-treated controls showed low daily and CRH-stimulated ACTH and cortisol concentrations (generally below assay sensitivity). In contrast, DEX + DOM-treated dogs had daily mean ACTH concentrations ranging from 10 +/- 8.1 to 32 +/- 26 pg/ml and mean peak post-CRH ACTH concentrations of 174 +/- 16 pg/ml. Although daily cortisol concentrations were below assay sensitivity, the mean peak post-CRH cortisol concentration was 6.7 +/- 1.8 micrograms/dl, indicating that the immunoreactive ACTH was biologically active.(ABSTRACT TRUNCATED AT 250 WORDS)

Regulation of adrenocorticotropin secretion from cultured canine anterior pituitary cells

Pituitary cells, collected from five healthy dogs, were cultured and treated with various doses of ovine corticotropin-releasing hormone (CRH), arginine vasopressin (AVP), oxytocin (OT), or angiotensin II (AII) to determine which of these hypothalamic peptides affected adrenocorticotropin (ACTH) secretion. Of the 4 peptides, only CRH significantly increased ACTH secretion from cultured canine anterior pituitary cells. The lowest dose of CRH tested, 0.01 nM, significantly stimulated ACTH release. Co-addition of AVP, OT, or AII with CRH did not increase ACTH secretion beyond that caused by addition of CRH alone. Similarly, neither co-addition of AVP with OT, AVP with AII, or OT with AII significantly stimulated ACTH secretion. These results support a role for CRH in the physiologic regulation of ACTH secretion from the canine anterior pituitary, but do not support regulatory roles for AVP, OT, or AII.

Albumin enhances negative feedback effect of cortisol on ACTH release from sheep pituitary cells

Albumin binds circulating glucocorticoids such as cortisol and consequently may modify the biological activity of these steroids by altering access to target cells. Because albumin is likely present in pituitary interstitial fluid, this study was designed to compare the negative feedback effect of cortisol on pituitary adrenocorticotropic hormone (ACTH) secretion from isolated sheep pituitary cells perifused with media containing 0.25% or 2% bovine serum albumin (BSA). Pituitary cells released less (P less than 0.05) immunoreactive ACTH in response to a 10-min treatment with 10 nM ovine corticotropin-releasing hormone (oCRH) after 45 min pretreatment with 0.5 microM cortisol when media contained 2% BSA vs. 0.25% BSA. A similar enhancement in negative feedback potency was observed when cells were treated with cortisol followed by 1 nM oCRH for 60 min, with an additional 10 min co-addition of arginine vasopressin. This potentiation was not observed when a noncortisol binding protein, ovalbumin, was substituted for BSA. However, the potentiating effect of albumin was present in perifused rat pituitary cells, indicating that the effect was not species specific. We conclude that albumin enhances the negative feedback potency of cortisol in anterior pituitary corticotrophs and that the process may operate under physiological conditions to enhance cell specific delivery of this steroid to appropriate targets.

Developmental changes in the regulation of plasma growth hormone concentrations in Holstein calves

A study was initiated to determine whether development of a functional ruminant digestive system was associated with alterations in plasma growth hormone (GH) concentration. Holstein bull calves were fed milk or milk with grain until studied at the age of 1 month (n = 12). Calves placed on pasture with some grain supplementation were studied at the age of 3 months (n = 6) to determine plasma GH concentration in an animal with fully developed ruminant metabolism. Blood samples were taken at 10-minute intervals for 5 hours, followed by administration of bovine GH-releasing factor (0.075 micrograms/kg of body weight) and subsequent blood sample collection for 1 hour. On the following day, a blood sample was collected via jugular cannula, clonidine (10 micrograms/kg) was administered, and blood samples were subsequently obtained. Data indicated that milk-fed calves had higher mean plasma GH concentration than did either milk/grain-fed or older calves. The difference in mean plasma GH concentration was related to higher secretory pulse amplitude. Pituitary responses to bovine GH-releasing factor did not differ among the 3 groups, but response to clonidine were greater in milk-fed calves than in calves of the other groups. These data indicate that the change from a nonruminant to a ruminant-type gastrointestinal tract, perhaps attributable to subsequent changes in metabolism, may induce changes in hypothalmic function to decrease GH concentration.

Expression of growth hormone, growth hormone releasing hormone, and somatostatin genes is unperturbed in the streptozotocin-induced diabetic rat

The effects of streptozotocin diabetes on the level of growth hormone, growth hormone releasing hormone, and somatostatin mRNA was measured in control rats, in diabetic rats maintained on insulin, and in diabetic rats in which insulin had been withheld for 3 days. Total cytoplasmic RNA samples were prepared from the pituitary and hypothalamic tissues of each animal and analyzed by dot blot or Northern blot hybridization. No significant difference was observed between control and insulin-treated groups with regard to body weight or plasma glucose concentration. The insulin withdrawal group had significantly higher plasma glucose concentrations and lower body weights, confirming diabetic status. There was no significant difference in the level of growth hormone, growth hormone releasing hormone, and somatostatin mRNA among any of the three groups however. We conclude that alterations in the regulation of circulating growth hormone in the streptozotocin-induced diabetic rat, removed from insulin treatment for 3 days, did not occur at the transcriptional or RNA processing level. This conclusion extends to hypothalamic growth hormone releasing hormone, and somatostatin gene expression as well. Regulatory changes in growth hormone level previously noted during insulin withdrawal in the streptozotocin-induced diabetic rat could be the result of post-transcriptional processes operating at the level of hormone synthesis or release.