Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P61278 (somatostatin)
 22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Growth hormone (GH) release is influenced mainly by two hypothalamic factors, growth hormone-releasing factor (GRF) and somatostatin and is modulated by other hormones such as gonadal steroids. The objective of this study was to determine if castration (CA) and exogenous testosterone (TE) affect endogenous and GRF-induced GH release. Purebred Yorkshire male pigs (n = 32) were assigned to one of the following treatments: T1:CA; T2:CA +/- TE; T3: intact (IN); T4: IN +/- TE, in a 2 x 2 factorial design. Piglets were castrated at 3 days of age. Testosterone propionate (1.0 mg/kg) in sesame oil (2 ml) or sesame oil alone was injected sc SID during a 10-day period before each sampling day at 9, 15 and 21 weeks of age. Jugular blood samples were collected for a 6-hr period preceding and following iv injection of hGRF (1-29)NH2 (10 micrograms/kg). These procedures were repeated at 9, 15 and 21 weeks of age. The overall mean GH levels and the area under the GH peaks before and after GRF stimulation were lower (P less than .05) in castrated animals than in intact animals. Testosterone treatment increased (P less than .05) circulating TE levels and increased the amplitude of the endogenous GH peaks but did not affect (P greater than .05) the GRF-induced GH release. Increasing age produced a marked reduction of the amplitude of the GH peaks, the area under the GH peaks, the baseline mean and the overall mean GH levels during the 6-hr period preceding GRF injection. The present data support the hypothesis that castration in pigs reduces circulating and GRF-induced GH release. Exogenous testosterone for 10 days did not stimulate endogenous or GRF-induced GH release with the exception of the amplitude of the endogenous GH peaks.
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PMID:Castration and testosterone effects on endogenous and somatocrinin-induced growth hormone release in intact and castrated male pigs. 249 17

The aim of this study was to investigate the role of thyroid hormones and glucocorticoids on GH secretion. Secretion of GH in response to GH-releasing hormone (GHRH) (5 micrograms/kg) was markedly (P less than 0.001) decreased in hypothyroid rats in vivo (peak GH responses to GHRH, 635 +/- 88 micrograms/l in euthyroid rats vs 46 +/- 15 micrograms/l in hypothyroid rats). Following treatment with tri-iodothyronine (T3; 20 micrograms/day s.c. daily for 2 weeks) or cortisol (100 micrograms/day s.c. for 2 weeks) or T3 plus cortisol, a marked (P less than 0.01) increase in GH responses to GHRH was observed in hypothyroid rats (peak GH responses, 326 +/- 29 micrograms/l after T3 vs 133 +/- 19 micrograms/l after cortisol vs 283 +/- 35 micrograms/l after cortisol plus T3). In contrast, none of these treatments modified GH responses to GHRH in euthyroid animals. Hypothyroidism was also associated with impaired GH responses to the GH secretagogue, His-D-Trp-Ala-Trp-D-Phe-Lys-NH2 (GHRP-6). Secretion of GH in response to GHRP-6 in vivo was reduced (P less than 0.01) in hypothyroid rats (peak GH responses, 508 +/- 177 micrograms/l in euthyroid rats vs 203 +/- 15 micrograms/l in hypothyroid rats). In-vitro studies carried out using monolayer cultures of rat anterior pituitary cells derived from euthyroid and hypothyroid rats showed a marked impairment of somatotroph responsiveness to both GHRP-6 and somatostatin in cultures derived from hypothyroid rats. In summary, our data suggest that thyroid hormones and glucocorticoids influence GH secretion by modulating somatotroph responsiveness to different GH secretagogues.
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PMID:Effects of hypothyroidism, tri-iodothyronine and glucocorticoids on growth hormone responses to growth hormone-releasing hormone and His-D-Trp-Ala-Trp-D-Phe-Lys-NH2. 249 23

We have examined the serum growth hormone (GH) and prolactin (PRL) response to growth hormone releasing factor (hGRF-(1-44)NH2 (GRF) 1 microgram/kg i.v. bolus) in 16 acromegalic patients (eight of whom were hyperprolactinaemic), 13 patients with microprolactinoma, and 14 healthy subjects. The GH responses to TRH and to the somatostatin analogue SMS 201-995 were also studied in acromegalic patients. In these, and in patients with microprolactinoma, GH responses after GRF (P less than 0.001 vs saline) were variable. The absolute GH increase (calculated as area under the curve) in acromegalic patients (2489 +/- 920 micrograms/l min), or in patients with microprolactinoma (1322 +/- 279 micrograms/l min) was not different from that in controls (2238 +/- 633 micrograms/l min). In addition, a significant increase in PRL release was observed after GRF in comparison to saline in acromegalic patients (P less than 0.01), in patients with microprolactinoma and in normal subjects (P less than 0.001). The PRL increase was significantly correlated with basal PRL levels in acromegalic patients (r = 0.99, P less than 0.001) and in patients with microprolactinomas (r = 0.61, P less than 0.05). Furthermore, a significant correlation was found between GH rise after GRF and basal GH, and between GH rise after GRF and GH decrement after SMS in patients with acromegaly. These results suggest that GRF can stimulate PRL release by actions on the normal pituitary and on pituitary adenomas, including microprolactinomas. Moreover, the data suggest that in acromegaly there is a relative functional deficiency of hypothalamic somatostatin.
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PMID:Growth hormone-releasing factor increases serum prolactin concentrations in normal subjects and in patients with pituitary adenomas. 250 55

Microinjection of synthetic GRF into the cerebroventricles or hypothalamus of the rat produces a number of neural effects, including the suppression of GH secretion, possibly representing a negative ultrashort loop autoregulation of GRF and/or stimulation of somatostatin neurosecretion. To demonstrate that such neuromodulation acts physiologically through endogenous GRF activity, the peptidic GRF antagonist (N-Ac-Tyr1,D-Arg2)GRF-(1-29)-NH2 was used to block the action of GRF on its presumed receptors in the hypothalamus. First, to establish the efficacy of the antagonist to block GRF receptors in the anterior pituitary, we injected the antagonist iv at doses of 2, 20, and 50 micrograms or saline (controls) into conscious male rats fitted with jugular cannulae. Sequential blood sampling every 15 min for 6 h between 1000-1600 h showed that 50 micrograms antagonist, iv, significantly suppressed the two periods of spontaneous release of radioimmunoassayable GH in controls in the morning and afternoon. A dose of 20 micrograms, iv, lowered mean plasma GH between 1400-1500 h (P less than 0.025), while the 2-microgram dose was without effect. The GRF antagonist was then microinjected into the third ventricle (3V) of conscious male rats at doses of 0.5 and 8.0 ng in 2 microliter sterile saline. The 8.0-ng dose of 3V antagonist elicited a 3-fold increase in the morning peak of GH (nanograms per ml): 3V antagonist, 159.0 +/- 62.0; 3V control, 51.0 +/- 21.9 (P less than 0.05). The 0.5-ng dose was without effect. Finally, we observed that pretreatment with the GRF antagonist 3V (10 ng), followed 15 min later by 10 ng rat GRF administered 3V, completely blocked the GRF-induced suppression of pulsatile GH release observed earlier. Both the systemic and central effects of the antagonist were specific to the control of GH, since PRL concentrations were unaltered. These results 1) have demonstrated the ability of a peptidic GRF antagonist to specifically suppress pulsatile GH release after its systemic administration, presumably by acting on pituitary GRF receptors, and 2) support the notion that GRF receptors are also present in the hypothalamus and are available for the physiological mediation of GRF-induced inhibition of GH release by a central mechanism.
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PMID:Blockade of growth hormone-releasing factor (GRF) activity in the pituitary and hypothalamus of the conscious rat with a peptidic GRF antagonist. 253 85

A series of cyclic, conformationally constrained photolabile peptides related to the enkephalins and to somatostatin were designed and synthesized in an effort to develop highly selective and potent peptides for the delta and mu opioid receptors. The following new peptides were prepared and tested for their delta opioid receptor potency and selectivity in the guinea pig ileum assay, the mouse vas deferens assay, and the rat brain binding assay: H-Tyr-D-Pen-Gly-p-NH2Phe-D-Pen-OH (1, [p-NH2Phe4]DPDPE) and H-Tyr-D-Pen-Gly-p-N3Phe-D-Pen-OH (2, [p-N3Phe4]-DPDPE). The following new peptides were prepared and tested for their mu opioid receptor potency and selectivity in the same assays: H-D-Phe-Cys-p-NH2Phe-D-Trp-Lys-Thr-Pen-Thr-NH2 (3, [p-NH2Phe3]CTP) and D-Phe-Cys-p-N3Phe-D-Trp-Lys-Thr-Pen-Thr-NH2 (4, [p-N3Phe3]CTP). The delta selective photoaffinity peptide 2 displayed both high affinity (IC50 = 9.5 nM) and good selectivity (IC50 mu/IC50 delta = 1053) as an agonist at delta opioid receptors in bioassays, and 2 also displayed moderate affinity (33 nM) and excellent selectivity (IC50 mu/IC50 delta = 110) for rat brain delta opioid receptors. The mu selective photoaffinity peptide 4 displayed very weak affinity (8% contraction at 300 nM) at mu opioid receptors in bioassays, but good affinity (IC50 = 48.6 nM) and excellent selectivity (IC50 delta/IC50 mu = 412) for the rat brain mu opioid receptors. These conformationally constrained cyclic photoaffinity peptides may be useful tools to investigate the pharmacology of delta and mu opioid receptors.
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PMID:Synthesis of highly mu and delta opioid receptor selective peptides containing a photoaffinity group. 253 26

The Met-enkephalin analog DAMME [D-Ala2,MePhe4-Met-enkephalin-(o)-o1, FK 33-824] can stimulate GH secretion in man. In this study we investigated the effects of the guanyl derivative of DAMME (G-DAMME) on the serum GH response to an analog of GHRH in normal men. GHRH-(1-29)NH2 and G-DAMME each induced a rise in serum GH, and the increase was greater when both were given together. Since the GHRH-(1-29)NH2 dose (100 micrograms) used was a maximally stimulatory one, these results suggest that the enhancing effect of G-DAMME on GHRH-induced GH release may be mediated through inhibition of somatostatin release.
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PMID:Opioids stimulate growth hormone (GH) release in man independently of GH-releasing hormone. 254 63

We have identified a series of mutations in the signal peptide of yeast prepro-alpha-factor which specifically attenuate translocation across the endoplasmic reticulum membrane in vivo. In prepro-alpha-factor-somatostatin hybrids, transposition of the amino-terminal tripeptide from wild-type NH2-Met-Arg-Phe to NH2-Met-Phe-Lys or NH2-Met-Phe-Arg causes a 45-75% reduction in the efficiency of membrane translocation. This is evidenced by the intracellular accumulation of unglycosylated, signal-containing precursors which are membrane-associated and are exposed to the cytosol. Surprisingly, abolition of the single positive charge by replacing arginine with phenylalanine has little effect on translocation into the endoplasmic reticulum. We conclude that the presence of an amino-terminal positive charge is not necessary for efficient targeting or translocation; however, misplacement by one position markedly disrupts translocation without affecting targeting. These mutations thus define an early stage of membrane interaction that is sensitive to local charge effects. Furthermore, our data suggest that post-translational translocation, signal cleavage, and core glycosylation of these polypeptides may occur to a significant extent in vivo.
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PMID:Misplacement of the amino-terminal positive charge in the prepro-alpha-factor signal peptide disrupts membrane translocation in vivo. 256 73

Female Syrian golden hamsters with N-nitrosobis(2-oxopropyl)amine (BOP)-induced ductal pancreatic cancers were treated with long-acting microcapsular preparations of the 6-D-tryptophan analog of luteinizing hormone-releasing hormone [( D-Trp6]LH-RH), releasing 25 micrograms/day; the somatostatin analog D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Trp-NH2 (RC-160), liberating 15 micrograms/day; and the combination of these two peptides. Therapy with analogs was initiated 24 weeks after initial administration of BOP. These treatments resulted in significantly better survival of all animals as compared to BOP controls; body weights of surviving peptide-treated animals were significantly higher than those of the BOP controls. All 15 BOP-control animals had pancreatic cancers. In the group treated with RC-160 four hamsters were free of tumors, whereas therapy with [D-Trp6]LH-RH resulted in seven tumor-free animals, and combination of RC-160 and [D-Trp6]LH-RH resulted in eight tumor-free animals from groups of 15. Only preblastomatous lesions were found in these animals. Average tumor weight of animals in all peptide-treated groups, sacrificed 60 days after beginning the peptide treatment, was significantly lower than that of BOP controls. No significant differences were seen between the various peptide-treated groups. Histologically, analog-treated tumors of hamsters showed striking regressive changes characteristic of programmed cell death (apoptosis). This apoptosis presumably resulted from hormonal effects on tumor cells from prolonged treatment with these analogs of hypothalamic hormones. Our present data confirm the beneficial effect of long-acting microcapsules of [D-Trp6]LH-RH and RC-160 on pancreatic carcinoma and suggest a mode of action for these peptides. The feasibility of applying this treatment with analogs of hypothalamic hormones to human pancreatic carcinoma can be envisioned from these studies.
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PMID:Programmed cell death (apoptosis) in pancreatic cancers of hamsters after treatment with analogs of both luteinizing hormone-releasing hormone and somatostatin. 256 4

Antitumoral effects of the agonist of luteinizing hormone-releasing hormone (D-Trp-6-LH-RH) and the somatostatin analog RC-160 (D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Trp-NH2) on chemically induced ductal pancreatic adenocarcinomas were studied. The tumors were induced in female Syrian golden hamsters by weekly s.c. injections of N-nitrosobis(2-oxopropyl)amine at a dose of 10 mg/kg b.w. for 6 weeks. 18 weeks after the last injection, the peptides in controlled-release microcapsule formulations were administered s.c. The animals received the following therapies: Group 1 (N = 15), vehicle only; Group 2 (N = 13), D-Trp-6-LH-RH microcapsules releasing 25 micrograms/day injected s.c. once a month; Group 3 (N = 14), RC-160 microcapsules, liberating 25 micrograms/day administered s.c. every 15 days; Group 4 (N = 14), the combination of D-Trp-6-LH-RH plus RC-160 microcapsules. The experiment was terminated on the 80th day when all hamsters in the control group were dead, but in the treated Groups 2, 3, and 4, we observed 71, 77, and 86% of survival rate, respectively. In addition to the prolongation of survival, the combination treatment resulted in a significant decrease in the tumorous pancreatic weight, increase in the body weight of the animals, reduction in ascites from 100 to 8.3% and regressive histological changes in 67% of the specimens. Our findings suggest that somatostatin analogues and D-Trp-6-LH-RH could be considered for the development of hormonal therapy for pancreatic cancer.
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PMID:Treatment of N-nitrosobis(2-oxopropyl)amine-induced pancreatic cancer in Syrian golden hamsters with D-Trp-6-LH-RH and somatostatin analogue RC-160 microcapsules. 256 12

Several analogues of somatostatin were examined in the Mia PaCa-2 human pancreatic cancer cell line for their ability to promote tyrosine phosphatase activity affecting the receptors for the epidermal growth factor. The inhibition of growth of the Mia PaCa-2 cells in culture was also evaluated to determine the mechanism of action of somatostatin analogues and their relative effectiveness in inhibiting cancer growth. Of the analogues tested D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Trp-NH2 (RC-160) caused the greatest stimulation of tyrosine phosphatase activity. Analogue D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Thr-NH2 (RC-121) had less effect but was more potent than somatostatin-14. Analogue D-Phe-Cys-Phe-D-Trp-Lys-Thr-Cys-Thr(ol) (SMS 201-995) produced no significant dephosphorylation. The analogues displayed the same order of activity in assays on growth inhibition of Mia PaCa-2 cells in cultures. Analogue (SMS-201-995) caused virtually no tyrosine phosphatase stimulation or growth inhibition in this cancer cell line, although it possesses a much higher antisecretory activity than somatostatin-14 in normal tissues. These observations indicate that somatostatin and some of its analogues can act as growth inhibitors in cancer cells through the activation of tyrosine phosphatase. These data reinforce the view that somatostatin analogue RC-160 and related compounds could be used for treatment of pancreatic cancer.
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PMID:Somatostatin analogues inhibit growth of pancreatic cancer by stimulating tyrosine phosphatase. 256 78


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