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 function of bombesin-like peptide, a neurotransmitter present in nerve fibers of elasmobranch rectal glands, is unknown. Since the principal activity of the rectal gland is to secrete chloride, the effects of bombesin on chloride secretion and the role of somatostatin in this response was studied. Bombesin failed to stimulate secretion in rectal glands perfused in the basal state. When added to glands stimulated by a constant infusion of vasoactive intestinal peptide (VIP), bombesin (8 x 10(-7) M) reversibly inhibited chloride secretion by 56 +/- 9.7% and at the same time evoked a 10-fold increase in the liberation of somatostatin into the venous effluent. Inactivation of somatostatin by the addition of cysteamine partially suppressed the inhibitory effect of bombesin on glandular secretion. The effect of bombesin to reduce chloride secretion was completely prevented by the calcium channel blocker nifedipine, which inhibits neurotransmitter release. These results suggest that bombesin inhibits the effect of VIP to stimulate chloride secretion by releasing somatostatin from neurosecretory nerve terminals within the rectal gland.
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PMID:Somatostatin mediates bombesin inhibition of chloride secretion by rectal gland. 197 71

A primary culture of human antral somatostatin cells has been developed and used in release studies. The phorbol ester, phorbol 12 myristate 13-acetate, caused a concentration-dependent increase in immunoreactive somatostatin secretion with a 1-mumol/L concentration resulting in a 40-fold stimulation (basal 0.28% +/- 0.7% total cell content vs. 13.8% +/- 2.2% TCC, P less than 0.005). The calcium ionophore, A23187, resulted in a significant stimulation only at 1 mumol/L (basal 0.28% +/- 0.7% TCC vs. 2.2% +/- 0.5% total cell content, P less than 0.05). However, addition of the ionophore at 1 mumol/L with the phorbol ester resulted in a potentiation of the response at all concentrations tested. Removal of extracellular calcium by chelation with EGTA reduced the response to that seen with the phorbol ester alone. Forskolin at 0.1 mmol/L resulted in a five-fold increase (basal 0.6% +/- 0.2% total cell content vs. 2.8% +/- 0.9% total cell content, P less than 0.02) and was 1000-fold less potent than the phorbol ester. The peptides bombesin and gastrin at concentrations up to 1 mumol/L had no effect on basal secretion. Cholecystokinin-8 significantly stimulated somatostatin secretion with a maximal effect at 0.1 mumol/L resulting in an eightfold increase (basal 0.2% +/- 0.04% total cell content vs. 1.5% +/- 0.4% total cell content, P less than 0.02). These results indicate that human antral D cells are more responsive to agents acting through the c-kinase pathway (phorbol 12 myristate 13-acetate, A23187, and cholecystokinin) than adenylate cyclase (forskolin).
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PMID:Release of somatostatin immunoreactivity from human antral D cells in culture. 197 18

The presence of acid in the lumen of the gastric fundus induces release of somatostatin close to the parietal cells; this acts to attenuate acid secretion in response to secretagogues, such as histamine and gastrin. The release of somatostatin within the stomach is further regulated by the activity of cholinergic neurons that inhibit somatostatin release and thus augment acid secretion (disinhibition), and noncholinergic (bombesin) neurons that stimulate somatostatin release and thus attenuate acid secretion. The influence of these neurons and the participation of somatostatin as a paracrine regulator of acid secretion has been probed and validated by the use of selective antagonists (atropine and a bombesin antagonist), somatostatin antiserum and pertussis toxin. Similar mechanisms exist in the distal antral segment of the stomach for the paracrine regulation of gastrin release by somatostatin.
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PMID:Gastric somatostatin: a paracrine regulator of acid secretion. 197 9

The intermediary pathways in the bombesin-induced somatostatin release were examined in isolated perfused rat stomach obtained from male rats that were fasted overnight. The stomachs were perfused by way of the celiac artery. On coinfusion of 1.0 mumol/L tetrodotoxin and 1 nmol/L bombesin, a significant depression in release of somatostatin was observed compared with that observed with bombesin alone. The 5-minute integrated somatostatin response after treatment with tetrodotoxin and bombesin was 173% +/- 14% of basal, which was significantly lower than that observed with bombesin alone (394% +/- 59% of basal, P less than 0.05) but significantly higher than that observed with medium-199 alone (95% +/- 7% of basal, P less than 0.05); this indicated that approximately 70% of the bombesin-stimulated somatostatin release was indirectly mediated through neural pathways, while a significant (approximately 30%) segment of it was mediated by nonneural mechanisms. To test if the 30% somatostatin release was secondary to gastrin release in response to bombesin, gastrin antiserum and bombesin (1 nmol/L) were coadministrated in the presence or absence of tetrodotoxin (1 mumol/L). Gastrin antiserum alone did not significantly affect basal release of somatostatin but caused a significant inhibition (approximately 23%) of bombesin-provoked somatostatin release. Coadministration of gastrin antiserum and tetrodotoxin attenuated bombesin-stimulated somatostatin release. Gastrin (1 mumol/L) alone significantly stimulated somatostatin release (150% +/- 10% of basal), which was completely attenuated in the presence of gastrin antiserum. Tetrodotoxin did not affect bombesin-elicited gastrin release, confirming that bombesin-stimulated gastrin release was directly mediated. To determine the nature of the neural pathways mediating the bombesin-induced somatostatin release, atropine (100 nmol/L) was used. Atropine inhibited bombesin-induced somatostatin release to the same extent as tetrodotoxin, indicating that cholinergic pathways mediated bombesin-induced somatostatin release. These results show that almost all the somatostatin response to bombesin is indirectly mediated, and is composed of a major neural (cholinergic) and a minor nonneural pathway. The nonneural mechanism appears to be contributed primarily by gastrin released in response to bombesin, which apparently has a short paracrine positive feedback effect on somatostatin release.
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PMID:Role of gastrin in bombesin-stimulated somatostatin release. 197 61

The isolated stomach of rats was vascularly perfused to measure the secretion of gastrin, somatostatin (SLI) and bombesin-like immunoreactivity (BLI). The gastric lumen was perfused with saline pH 7 or pH 2, and electrical vagal stimulation was performed with 1 ms, 10 V and 2, 5 or 10 Hz, respectively. Atropine was added in concentrations of 10(-9) or 10(-7) M to evaluate the role of cholinergic mechanisms. In control experiments, vagal stimulation during luminal pH 2 elicited a significant increase of BLI secretion only at 10 Hz but not at 2 and 5 Hz. Somatostatin release was inhibited independent of the stimulation frequency employed. Gastrin secretion at 2 Hz was twice the secretion rates observed at 5 and 10 Hz, respectively. At luminal pH 7 BLI rose significantly at 5 and 10 Hz. SLI secretion was decreased by all frequencies. Gastrin secretion at 2 and 5 Hz was twice as high as during stimulation with 10 Hz. Atropine at doses of 10(-9), 10(-8), 10(-7) and 10(-6) M had no effect on basal secretion of BLI, SLI and gastrin. At luminal pH 2, atropine increased dose-dependently the BLI response at 2 and 5 but not at 10 Hz. The decrease of SLI during 2 and 5 Hz but not 10 Hz was abolished by atropine 10(-9) M. SLI was reversed to stimulation during atropine 10(-7) M at all frequencies. The rise of gastrin at 2 Hz was reduced by 50%. At luminal pH 7, atropine had comparable effects with a few differences: the BLI response at 10 Hz was augmented and the gastrin response to 2 and 5 Hz was reduced. In conclusion the present data demonstrate a frequency and pH-dependent stimulation of BLI and gastrin release. The stimulation of BLI is predominantly due to atropine-insensitive mechanisms while muscarinic cholinergic mechanisms exert an inhibitory effect on BLI release during lower stimulation frequencies (2 and 5 Hz) independent of the intragastric pH and also during higher frequencies at neutral pH. Both, atropine sensitive and insensitive mechanisms are activated frequency dependent. The atropine-sensitive cholinergic mechanisms but not the noncholinergic mechanisms involved in regulation of G-cell function are pH and frequency dependent. Somatostatin is regulated largely independent of stimulation frequency and pH by at least two pathways involving cholinergic mechanisms of different sensitivity to atropine. These data suggest a highly differentiated regulation of BLI, gastrin and SLI secretion and the interaction between these systems awaits further elucidation.
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PMID:Vagally induced release of gastrin, somatostatin and bombesin-like immunoreactivity from perfused rat stomach. Effect of stimulation frequency and cholinergic mechanisms. 197 85

Previous studies carried out in normal male or ovariectomized female rats have shown that bombesin plays an inhibitory role on growth hormone (GH) secretion. Since estrogens play an important role in the neuroregulation of GH secretion, we have studied the effects of bombesin on basal GH secretion and GH responses to GH-releasing hormone (GHRH) in untreated and estrogen-treated male rats (200 micrograms estradiol valerate s.c., 1 single dose 3 days before the experiment or every 3 days for 2 weeks). All the experiments were carried out in rats anesthetized with pentobarbital. GH responses to GHRH (1 microgram/kg) were inhibited by bombesin (100 micrograms/kg) in untreated rats, but were markedly increased in rats treated with estrogens either 3 days before or for the previous 2 weeks. Similarly, bombesin administration (25 or 100 micrograms/kg) in estrogen-treated rats induced a clear-cut, dose-related increase in basal GH levels. This stimulatory effect of bombesin was not affected by passive immunization with antisomatostatin antiserum (750 microliters i.v., 60 min before) and only partially blocked by anti-rGHRH antiserum (750 microliters i.v., 1 h before). In conclusion, our data show that bombesin exerts an inhibitory effect in normal male rats but a stimulatory one in estrogenized rats. This latter effect is independent of somatostatin and only partially blocked by anti-rGHRH serum.
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PMID:Estrogen-dependent effects of bombesin on in vivo growth hormone secretion in the rat. 198 Sep 37

1. The mechanical responses to some autonomic drugs and neuropeptides of longitudinal muscle (LM) and circular muscle (CM) strips isolated from the carp intestinal bulb were investigated in vitro. 2. Acetylcholine and carbamylcholine caused concentration-dependent transient contraction of both LM and CM strips. Tetrodotoxin had no effect, but atropine selectively decreased the contractile responses to acetylcholine and carbamylcholine. 3. Excitatory alpha-2 and inhibitory beta adrenoceptors were present in both LM and CM strips. 4. 5-Hydroxytryptamine (5-HT) caused concentration-dependent contraction of both LM and CM strips. Tetrodotoxin, atropine and methysergide decreased the contractile responses to 5-HT. 5. Some neuropeptides (angiotensin I, angiotensin II, bombesin, bradykinin, neurotensin, somatostatin and vasoactive intestinal polypeptide) did not cause any mechanical response (contraction or relaxation) in either smooth muscle strip. 6. Substance P (SP), neurokinin A (NKA) and neurokinin B (NKB) caused contraction of both LM and CM strips. However, the time course of the contraction in LM was different from that in CM. The order of potency was NKA greater than SP greater than NKB in LM strips and NKA greater than SP much greater than NKB in CM strips. In LM strips, the contractile responses to tachykinins were unaffected by spantide and methysergide, but partly decreased by tetrodotoxin and atropine. On the other hand, the contractile responses of CM strips were unaffected by tetrodotoxin, atropine, methysergide and spantide. 7. Dynorphin (1-13) (DYN), leucine-enkephalin (L-Enk) and methionine-enkephalin (M-Enk) caused concentration-dependent contraction of both LM and CM strips. The order of potency was DYN greater than M-Enk greater than L-Enk. Naloxone selectively decreased the responses to opiate peptides. 8. The present results indicate that acetylcholine, carbamylcholine, catecholamines, 5-HT, tachykinins (SP, NKA and NKB) and opiate peptides (DYN, L-Enk and M-Enk) affect the mechanical activity of LM and CM strips isolated from the carp intestinal bulb through their specific receptors.
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PMID:Effects of some autonomic drugs and neuropeptides on the mechanical activity of longitudinal and circular muscle strips isolated from the carp intestinal bulb (Cyprinus carpio). 198 39

To investigate the effects of 14 days administration of H2-receptor antagonist (famotidine) on gastric gastrin and somatostatin secretion, bombesin and glucagon were perfused in the isolated pancreas-duodenum deprived rat stomach. Then serum gastrin concentration, gastric mucosal gastrin and somatostatin content, and gastric mucosal G-cell and D-cell numbers were examined. The 14 days administration of famotidine caused the significant increase of basal gastrin secretion, antral G-cell hyperplasia, high gastrin sensitivity to the stimulation by bombesin, and the low somatostatin sensitivity to the stimulation by glucagon. These facts would suggest that 14 days famotidine administration disturbed not only gastrin secretion but also somatostatin secretion. These results may contribute, at least in part, to the high recurrence of ulcers after withdrawal of H2-receptor antagonists.
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PMID:[Effects of H2-receptor antagonist on gastrin and somatostatin secretion of rat stomach]. 198 91

Pancreatic beta-cell and gut regulatory peptide responses were investigated in 13 healthy elderly and 12 young subjects (control group) after a standard meal test. In addition to hyperinsulinemia and hypergastrinemia, we found lower basal and postprandial total integrated responses (TIR) for gastric inhibitory polypeptide and bombesin in the elderly group. The mean postprandial TIR for neurotensin (NT) was significantly higher in the aged subjects, but the somatostatin response was suppressed in this group.
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PMID:Gut regulatory peptides and pancreatic beta-cell response to nutritional stimuli in the elderly. 198 70

Intramural neurons in the fundus of the isolated mouse stomach were activated by 1,1-dimethyl-4-phenylpiperazinium (DMPP) or by electrical field stimulation and the participation of cholinergic and bombesin/gastrin-releasing peptide (GRP) neurons in the regulation of acid secretion evaluated with atropine and a selective bombesin/GRP antagonist, [Leu13-psi(CH2NH)-Leu14]bombesin. For both DMPP and field stimulation, atropine inhibited acid secretion and augmented somatostatin secretion. The bombesin/GRP antagonist had an opposite effect, augmenting acid secretion and inhibiting somatostatin secretion to below basal levels. The combination of the two antagonists restored DMPP- and field-stimulated acid and somatostatin secretion to basal levels. The results indicate that neurally stimulated acid secretion in the isolated mouse stomach is regulated by cholinergic neurons that mediate stimulation and bombesin/GRP neurons that mediate inhibition of acid secretion. Cholinergic neurons exert their stimulatory effect by acting directly on parietal cells and indirectly by eliminating the inhibitory influence of somatostatin. Bombesin/GRP neurons exert their inhibitory effect mainly by inducing release of somatostatin; an additional direct inhibitory effect of bombesin/GRP neurons on parietal cells is possible.
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PMID:Regulation of acid secretion by bombesin/GRP neurons of the gastric fundus. 198 4

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