UNIPROT:P61278 - FACTA Search

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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The somatostatin analog SMS 201-995 (2 X 6 or 2 X 20 micrograms daily for 30 days) inhibited the growth of the PRL/ACTH-secreting pituitary tumor 7315a by 36% and 48%, respectively. A biphasic curve of the inhibitory effect of the SMS analog on tumor growth was recognized: the actual tumor growth inhibitory effect occurred during the first 15 days, after which the tumors grew in parallel with the control tumors despite SMS 201-995 treatment. At the end of the 30-day SMS 201-995 treatment, plasma GH and plasma somatomedin-C levels were similar to those in the control tumor-bearing rats. Separate experiments in normal rats showed that tachyphylaxis of the GH-secretion inhibitory effects of three different doses of SMS 201-995 occurred within 6-10 days. No specific somatostatin-14 or SMS 201-995 receptors were present on well grown, untreated 7315a pituitary tumors. However, PRL and ACTH secretion by cultured cells prepared from the 7315a tumor was inhibited by SMS 201-995. Pretreatment of the cultured cells with dexamethasone made PRL secretion by these tumor cells insensitive to SMS 201-995. These studies suggest that several factors played a role in the mechanism of action of the tumor growth-inhibitory actions of SMS 201-995. Twice daily administration of the somatostatin analog rapidly (within 6-10 days) induces tachyphylaxis of the GH-inhibitory effect. From 10 days after implantation the PRL/ACTH-secreting pituitary tumor causes adrenal hyperplasia and increased plasma corticosterone concentrations. Exposure of the 7315a tumor to high glucocorticosteroid levels probably decreases the number of somatostatin receptors, diminishing the possible direct antitumor effect of SMS 201-995.
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PMID:Studies on the mechanism of action of the inhibitory effect of the somatostatin analog SMS 201-995 on the growth of the prolactin/adrenocorticotropin-secreting pituitary tumor 7315a. 287 Sep 15

The role of 17 beta-estradiol (E2) in the induction of an inhibitory effect of somatostatin (SRIF) on PRL release and in the regulation of SRIF receptors was analyzed in rat anterior pituitary cells. SRIF exerts a moderate inhibitory effect on basal PRL release from cultured pituitary cells prepared from normal rats. The inhibitory effect of SRIF was weakened when the cells were prepared from castrated rats, but was strengthened in cells from E2-treated rats. When cells from ovariectomized rats were cultured with charcoal-treated sera in the absence of E2, SRIF affected neither basal PRL release nor the increased PRL release elicited by TRH, (Bu)2cAMP, or vasoactive intestinal peptide. However, in cells cultured with E2 (10(-9) M) for more than 12 h, SRIF decreased basal as well as secretagogue-stimulated PRL release. Enhancement of both the sensitivity and magnitude of the inhibitory effect of SRIF appeared dependent upon the length of the preincubation and the E2 concentration. On the other hand, an inhibitory effect of SRIF on GH release was unaffected by castration, E2 administration in vivo, or E2 treatment in vitro. Dihydrotestosterone (10(-6) M) produced an effect similar to that of E2, but other steroids tested did not. Binding studies demonstrated that the specific binding of [125I-Tyr11]SRIF was saturable, with a Kd of 99 pM and a maximum binding capacity of 89.4 fmol/mg protein in pituitary membranes from control rats, and a Kd of 45 pM and a maximum binding capacity of 305.2 fmol/mg protein in membranes from rats primed with E2 for 4 weeks. Apparent Ki values for native SRIF in both membranes were similar. Treatment of pituitary cells with E2 for 8 days in vitro in culture produced a 2-fold increase in the number of binding sites. These results demonstrate that E2 acts on mammotrophs at the pituitary level, rendering them sensitive to SRIF, probably by increasing the number of SRIF receptor sites.
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PMID:17 beta-estradiol induces somatostatin (SRIF) inhibition of prolactin release and regulates SRIF receptors in rat anterior pituitary cells. 287 16

The somatostatin analogue SMS 201-995 has recently been shown to be effective in suppressing GH secretion in most acromegalic patients. In the present study it was investigated whether PRL release in prolactinoma and acromegalic patients might also be sensitive to SMS 201-995 and whether co-secretion of PRL in acromegaly plays a role in determining the sensitivity of GH secretion to SMS 201-995. The s.c. administration of 50 micrograms SMS 201-995 did not affect high plasma PRL levels in four microprolactinoma patients. Therapy of one of these patients for 3 d with 50 micrograms three times a day also did not affect PRL levels. The single administration of 50 micrograms SMS 201-995 in 22 acromegalic patients lowered plasma GH levels for 2-6 h to less than 5 micrograms/l in 14 patients and to less than 50% of control values in 16 patients. In 18 of these 22 patients the immunohistochemical picture of the pituitary tumour was known. Eleven patients had pure GH-containing tumours and in seven patients there were mixed GH/PRL-containing tumours. In two of these latter patients there was evidence for GH and PRL being secreted by the same tumour cells. The sensitivity of GH secretion to SMS 201-995 did not differ between the patients with pure GH or mixed GH/PRL-containing adenomas. Plasma PRL levels were not affected by SMS 201-995 in the patients with pure GH-secreting tumours, but were significantly suppressed in four of the seven patients with mixed GH/PRL containing tumours. Chronic treatment for 16 weeks of one patient with a mixed GH/PRL-containing tumour with SMS 201-995 (100 micrograms three times a day) resulted in normalization of both the increased GH and PRL levels. It is concluded that SMS 201-995 does not affect tumorous PRL secretion in patients with pure prolactinomas. In acromegalic patients with mixed GH/PRL-containing tumours PRL secretion in some patients is sensitive to SMS 201-995, making these patients good candidates for chronic treatment with the analogue. The simultaneous presence of PRL in the GH-secreting pituitary tumour or the presence of hyperprolactinaemia in acromegalics does not play a role in the sensitivity of GH secretion to the somatostatin analogue.
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PMID:The sensitivity of growth hormone and prolactin secretion to the somatostatin analogue SMS 201-995 in patients with prolactinomas and acromegaly. 287 48

LHRH has previously been found to be the only known hypothalamic releasing factor which can specifically stimulate the release of the opioid dynorphin and other proenkephalin B-derived peptides from the rat adenohypophysis in vitro. In the present study the mechanisms that regulate dynorphin release were further characterized. It was examined whether or not dynorphin release from the adenohypophysis in vitro is altered during inhibition of the secretion of various anterior pituitary hormones. Rat anterior pituitary quarters were incubated in vitro and hormone release into the incubation medium was measured by RIAs. Somatostatin, dopamine, T3, dexamethasone, and 5 alpha-dihydrotestosterone were used to inhibit the secretion of GH, PRL, TSH, ACTH/beta-endorphin, or LH/FSH, respectively. GH, PRL, or beta-endorphin release was inhibited without affecting the simultaneous release of dynorphin A-(1-13)-like immunoreactivity (Dyn A1-13-IR). Concentrations of T3, somatostatin, or dopamine which were effective in suppressing the evoked and/or basal release of TSH, GH, or PRL, respectively, produced no effect on Dyn A1-13-IR release caused by high potassium concentration (40 mM) or LHRH (500 pM). The LHRH-induced release of LH and FSH was inhibited by the glucocorticoid dexamethasone or the androgen 5 alpha-dihydrotestosterone. Under these conditions, Dyn A1-13-IR release was also reduced. However, whereas LH release was completely blocked by 5 alpha-dihydrotestosterone, FSH and Dyn A1-13-IR release was reduced only by 50%. The release of FSH and Dyn A1-13-IR in vitro from anterior pituitary glands taken from rats, castrated 3 weeks before, was enhanced to a similar extent (about 2.5-fold); the simultaneous enhancement of LH release was significantly (P less than 0.005) greater (about 5-fold). We conclude that the mechanisms which regulate the release and/or biosynthesis of dynorphin and other proenkephalin B-derived peptides of the adenohypophysis are similar to those of the gonadotropins but different from those of any other anterior pituitary hormone, and may be more closely related with FSH release than LH release. These data support the view that dynorphin of the normal rat adenohypophysis may be localized in at least a subpopulation of gonadotrophs.
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PMID:Release of dynorphin-like immunoreactivity from rat adenohypophysis in vitro during inhibition of anterior pituitary hormone secretion from individual cell types. 288 74

The present experiments were carried out to clarify the role of endogenous somatostatin (SRIF) in the regulation of PRL and TSH release. The effects of electrical stimulation of the hypothalamic periventricular nucleus (PE) on vasoactive intestinal polypeptide (VIP)-induced PRL and TRH-stimulated TSH secretion were studied using pentobarbital-anesthetized male rats bearing indwelling cannulae in the right atria. The animals were implanted in the PE with bipolar concentric stimulating electrodes 1 week before the experiments began. The effects of a bolus injection or a continuous infusion of SRIF-14 (iv, 7.6 or 10 nmol/100 g BW, respectively) on the PRL or TSH release induced by VIP or TRH were also examined. Electrical stimulation of the PE significantly enhanced VIP-induced PRL release 19 min after the bolus injection of VIP (from 29.3 +/- 7.2 to 59.7 +/- 14.9 ng/ml, P less than 0.05). A bolus injection of SRIF had a similar effect and increased the PRL response to VIP (from 29.3 +/- 7.2 to 114.7 +/- 22.4 ng/ml, P less than 0.01). Continuous infusion of SRIF did not decrease the stimulatory effect of VIP on PRL release; on the contrary it significantly increased the PRL response to a first VIP injection (10 min after the onset of SRIF-14 infusion) over that observed after a second administration of VIP. Neither electrical stimulation of the PE nor the bolus SRIF-14 injection modified basal PRL secretion. Electrical stimulation of the PE slightly but significantly increased the TSH response to a bolus injection of TRH, but had no effect on the basal TSH release. In contrast, both the bolus injection and the continuous infusion of SRIF-14 significantly and persistently inhibited the TRH-stimulated TSH release. These results suggest that 1) SRIF does not inhibit VIP-induced PRL secretion in vivo but rather enhances it through some unknown mechanism; 2) SRIF inhibits TRH-stimulated TSH secretion.
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PMID:Evidence for a synergistic effect of somatostatin on vasoactive intestinal polypeptide-induced prolactin release in the rat: comparison with its effect on thyrotropin (TSH)-releasing hormone-stimulated TSH release. 288 77

The somatostatin analog SMS 201-995 was recently shown to be effective in suppressing GH secretion and in causing tumour shrinkage in patients with GH-secreting pituitary tumours. In this respect, the action of SMS 201-995 seems similar to that of the dopamine-agonist bromocriptine in patients with PRL-secreting pituitary tumours. In the present study we compared the respective effects of SMS 201-995 and bromocriptine on normal rat GH and PRL release in vivo and in vitro. Both in vitro and in vivo, repeated administration of SMS for up till 6 days suppressed circulating GH concentrations, and the ability of the pituitary glands to release GH in vitro. A dose-dependent diminution occurred of the total pituitary GH content in rats treated in vivo with SMS 201-995 for 4-6 days. During short-term in vitro incubation for only 4 h, the total amount of GH measured in the medium + gland was also diminished. Chronic administration with SMS 201-995 (2 micrograms/kg twice daily for 15 days), however, resulted in a complete desensitization of its inhibitory effect on GH synthesis and release. In similar experiments it was shown that the dopamine agonist bromocriptine affects normal PRL secretion in a different manner. Both in vitro (10 nmol/l) and in vivo administration for 6 days (0.2 mg/kg twice daily) greatly inhibited circulating PRL levels and the ability of the pituitary glands to release PRL in vitro. This is, however, in all instances accompanied by an accumulation of PRL within the pituitary gland.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effect of the somatostatin analog SMS 201-995 on normal growth hormone secretion in the rat. A comparison with the effect of bromocriptine on normal prolactin secretion. 288 95

Pharmacological characterization of somatostatin (SRIF) receptors located on somatotrophs, thyrotrophs, and lactotrophs was attempted by measuring the effects of 14 structural agonists of somatostatin (SRIF) on the inhibition of basal and GRF-stimulated GH and basal and TRH-stimulated PRL and TSH secretion. We also checked the abilities of the analogs to displace [125I]N-Tyr-SRIF binding to pituitary cell membranes and their potency to inhibit adenylate cyclase activity. There was a very good correlation (r = 0.975) between the displacement of [125I]N-Tyr-SRIF and the inhibition of adenylate cyclase activity by the analogs. The effects of the analogs on secretion of the three hormones followed the same rank order of potency. However, the active analogs displayed 2-6 times lower affinities in inhibiting PRL than GH or TSH secretions. The shift in affinity was even more pronounced in the case of the lower potency of the analogs as inhibitors of adenylate cyclase activity compared to hormone secretions. Pretreatment of the cells with pertussis toxin (100 ng/ml; 24 h) blocked SRIF inhibition of basal and GRF-stimulated adenylate cyclase activity and decreased by 83% [125I]N-Tyr-SRIF binding. It also blocked the ability of SRIF to inhibit GRF-induced GH and TRH-induced PRL and TSH secretion. However, pertussis toxin also increased GRF stimulation of GH secretion and decreased TRH stimulation of both TSH and PRL secretion. We conclude from our data that SRIF-binding sites located on the three target cells of the adenohypophysis are of a single class. These binding sites are negatively coupled to adenylate cyclase, but the inhibition of hormone secretions by SRIF cannot be explained solely through adenylate cyclase inhibition. Another mechanism of transduction must be involved in the actions of SRIF on its three pituitary target cells.
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PMID:Somatostatin receptors on pituitary somatotrophs, thyrotrophs, and lactotrophs: pharmacological evidence for loose coupling to adenylate cyclase. 289 May 15

Twelve patients with active acromegaly were treated with the long-acting somatostatin analogue SMS 201-995 (SMS), at a dose of 50 micrograms sc twice daily in the first 2 weeks of treatment and 100 micrograms sc thereafter. Four h after the first injection of SMS, GH levels became normal in 8 of the 12 patients. Basal glucose levels were significantly lower at the 28th day of treatment. This glucose lowering effect was stronger in the diabetic than in the nondiabetic patients. The postprandial rise of insulin levels was reversed by SMS, leading to a more pronounced postprandial rise of glucose, whereas the postprandial secretion of glucagon was also reversed by SMS. The rise of glucose levels during oral glucose loading was similar before and during SMS, despite a strong inhibitory effect of the drug on the insulin rise after glucose loading. Basal TSH levels were not influenced by SMS, the TRH-induced TSH response, however, was significantly blunted. Although the basal PRL levels were significantly reduced by SMS, the TRH-induced PRL rise was similar before and during administration of the analogue. Paradoxical GH responses to TRH disappeared in 7 out of 8 patients during SMS. Paradoxical GH responses to GnRH, however, persisted in 4 out of 4 patients. Paradoxical responses of GH after glucose loading disappeared in 2 out of 2 patients. The GH response after GHRH administration was strongly suppressed by SMS. During long-term treatment (up to 2 years), the GH level obtained within 5 h after the last injection of SMS remained normal in the patients whose GH levels normalized at the first day of treatment. There was a good response of the disease to this treatment, and no serious adverse reactions were observed. We conclude that SMS normalizes most anomalous growth hormone kinetics in acromegaly. The drug offers a new tool in the treatment of this disease.
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PMID:Long-term treatment of acromegaly with Sandostatin (SMS 201-995). Normalization of most anomalous growth hormone responses. 289 39

Previous studies from our laboratory demonstrated that the acute release of PRL from human decidual tissue is stimulated by a 23.5 kilodalton placental protein which we designated decidual PRL-releasing factor (PRL-RF). To determine whether PRL-RF may also affect the synthesis of PRL and/or cause a secondary increase in PRL release, we have examined the effects of purified PRL-RF on the synthesis and release of PRL over a 96-h period. Exposure of dispersed decidual cells to PRL-RF (0.5 microgram/ml) stimulated a biphasic increase in PRL release with acute transient stimulation during the first 0.5 h and a delayed and sustained stimulation beginning about 8 h after exposure which persisted for the duration of the 96 h. The amounts of PRL released from PRL-RF-exposed cells after 0.5, 8, 12, 24, and 96 h were 321.2 +/- 36.2 (mean +/- SEM, n = 3), 110.2 +/- 5.3, 138.2 +/- 7.2, 194.5 +/- 11.2, and 201.5 +/- 14.2% that of control cells. Studies of the de novo synthesis of [35S]methionyl PRL indicated that the increase in PRL release after the first few hours of exposure to PRL-RF was secondary to an increase in PRL synthesis. Somatostatin (100 nM) inhibited the acute stimulatory effect of PRL-RF, but had no effect on the delayed stimulation of PRL release. On the other hand, cycloheximide (20 microM) completely inhibited the secondary increase in PRL release in response to PRL-RF but had no effect on the acute release. These results demonstrate that PRL-RF stimulates both the synthesis and release of decidual PRL.
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PMID:Decidual prolactin (PRL)-releasing factor stimulates the synthesis of PRL from human decidual cells. 289 61

The new data reported here, and available in the literature, are interpreted to indicate that acute release of PRL in stress is probably mediated by secretion of VIP and PHI arising from a subpopulation of paraventricular cells in the tuberoinfundibular system, and that this secretion is under serotonergic control, presumably by way of the raphe nuclear projection to the hypothalamus. The acute PRL response to suckling response is only partially under VIP/PHI control, and may be regulated by an as yet unidentified neural lobe hormone. In addition to the hypothalamic component of PRL regulation, there is a well-defined population of VIP cells within the pituitary, representing the only known example of VIP expression outside of nerve cells. This population of VIP cells is exquisitely responsive to thyroid status, and in common with the thyrotrope cell, is activated by hypothyroidism. Since VIP secretion is enhanced in the hypothyroid pituitary, and VIP release is stimulated by TRH, it is reasonable to postulate that paracrine VIP secretion may play a role in the reasonable to postulate that paracrine VIP secretion may play a role in the hyperprolactinemia prolactinemia that occurs in the hypothyroid human, although this is clearly not the case for the rat in whom hyperprolactinemia was not demonstrable. The role of VIP/PHI in human pituitary disease is unknown. We have been unable to identify any tumors that contain immunoreactive material using tissues prepared by standard methods. It may be that the demonstration of VIP/PHI is more demanding and will require better techniques for staining. The role of tuberoinfundibular VIP hypersecretion remains to be established but the evidence for stress-induced PRL hypersecretion in man encourages us to believe that at least some cases may be due to excessive hypothalamic activity. Additional potential neuroendocrine actions of VIP are in the secretomotor control of the ovary and thyroid, and in the regulation of somatostatin secretion and synthesis. In dispersed cell cultures (but not in whole hypothalamic slices from adult animals), VIP stimulates somatostatin secretion and independently stimulates the formation of somatostatin mRNA, an effect that can be duplicated in mixed cultures by treatment with forskolin, a postreceptor cAMP stimulator. In work carried out by Montminy and colleagues, the cAMP action has shown to be mediated by formation of a soluble protein that appears to activate the somatostatin gene promotor through interaction with a specific gene sequence.
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PMID:Neuroendocrine significance of vasoactive intestinal polypeptide. 289 11

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