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)

Toxin from the scorpion Leiurus quinquestriatus was used to release norepinephrine from sympathetic nerve endings in the perfused rat pancrease. Addition of toxin, 10 mug./ml., to perfusate containing 0.3 mg./ml. glucose caused a large increase in release of norepinephrine and glucagon. Glucagon secretion was suppressed by perfusate containing 3.0 mg./ml. glucose but still responded to stimulation with scorpion toxin. Atropine, 10 muM, had no effect on either norepinephrine or glucagon release in response to scorpion toxin. The release of glucagon was blocked by 100 muM propranolol, 10 muM phentolamine, or 30 muM phenoxybenzamine. Somatostatin, 55nM, did not affect the release of norepinephrine by scorpion toxin but totally inhibited the glucagon response. These results suggest that pharmacologic stimulation of the adrenergic nerve endings in the rat pancreas can elicit a rapid release of glucagon. This response can be prevented by appropriate concentrations of either alpha or beta adrenergic blocking agents or somatostatin.
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PMID:Stimulation of glucagon secretion by scorpion toxin in the perfused rat pancreas. 78 80

The mechanism by which partly digested protein (peptone) stimulates gastrin secretion was examined in isolated antral tissues with intact intramural innervation. In the isolated vascularly perfused rat stomach, luminal perfusion with 0.5% peptone increased gastrin (62 +/- 14 pg/min; P less than 0.01) and decreased somatostatin (74 +/- 19; P less than 0.01) secretion. The axonal blocker tetrodotoxin (TTX) abolished the gastrin and somatostatin responses indicating that the responses were neurally mediated. Atropine partly inhibited the gastrin response (50%) and converted the somatostatin response to an increase above basal level. The selective bombesin/gastrin-releasing peptide (GRP) antagonist [Leu13-psi(CH2NH)-Leu14]-bombesin partly inhibited the gastrin response (65%) and caused a further decrease in somatostatin secretion. A combination of atropine and the bombesin/GRP antagonist, like TTX, abolished the gastrin and somatostatin responses. The pattern of response to peptone in superfused antral segments was identical to that in the vascularly perfused stomach. In fundic segments that do not secrete gastrin, the somatostatin response to peptone alone and with various antagonists was identical to that in antral segments. The results indicate that peptone stimulates gastrin secretion by activating stimulatory cholinergic and bombesin/GRP neurons. Cholinergic neurons stimulate gastrin directly as well as indirectly by eliminating the inhibitory paracrine influence of somatostatin.
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PMID:Peptone stimulates gastrin secretion from the stomach by activating bombesin/GRP and cholinergic neurons. 134 6

Insulin hypoglycemia is a potent mechanism for somatostatin secretion into the circulation. Whether the associated increase in gastric acid mediates the rise of one or both principle molecular forms of somatostatin, somatostatin-14 (S-14) and somatostatin-28 (S-28), was examined in four conscious dogs. Somatostatin molecular forms were separated by gel filtration chromatography after extraction of acidified plasma on octadecyl silyl cartridges and quantified by RIA. Basal plasma levels of S-14 and S-28 were 3.4 +/- 0.2 and 4.1 +/- 0.6 fmol/ml, respectively. After hypoglycemia induced by insulin, plasma S-14 increased by 29.5 +/- 3.9 fmol/ml (P less than 0.001), and plasma S-28 increased by 7.2 +/- 0.9 fmol/ml (P less than 0.01). Suppression of hypoglycemia-mediated gastric acid secretion after the administration of omeprazole or ranitidine inhibited elevations of S-14 by 82 +/- 6% (P less than 0.001) and 81 +/- 7% (P less than 0.001), respectively, but had no effect on the rise of S-28. Atropine (50 micrograms/kg, iv), which also suppresses gastric acid secretion after insulin hypoglycemia, decreased S-14 by 59 +/- 3% (P less than 0.01) without influencing S-28. Atropine given after omeprazole treatment, however, increased S-14 levels observed after atropine (P less than 0.001) or omeprazole (P less than 0.001) alone and was equivalent to control levels. S-28 remained unaltered after atropine and omeprazole treatment. These results in conscious dogs indicate that after vagal stimulation induced by insulin hypoglycemia 1) both S-14 and S-28 are released into the circulation, but S-14 predominates; 2) gastric acid contributes directly to the stimulation of S-14, but not S-28, secretion; 3) muscarinic inhibitory mechanisms participate in the regulation of S-14 secretion, and this mechanism is amplified when vagally stimulated gastric acid secretion is suppressed; and 4) nonmuscarinic mechanisms mediate in part S-28 secretion. This study suggests the presence of a reciprocal functional relationship between gastric acid secretion and circulating S-14 that is mediated by vagal muscarinic mechanisms.
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PMID:Influence of gastric acid on circulating somatostatin-14 and -28 released after insulin-induced hypoglycemia in conscious dogs. 135 4

The effect of administering different doses of erythromycin on gallbladder emptying and plasma concentrations of immunoreactive motilin was investigated in healthy volunteers. Erythromycin was infused for 30 min at four different doses: 20, 50, 100, and 1000 mg/hr. Gallbladder volume was determined by ultrasound scanning every 10 min for 60 min. All doses, except 20 mg/hr, provoked a significant reduction in gallbladder volume (P < 0.01). The gallbladder emptying peak occurred after 20 min infusion. It was approximately 40-45% of basal volume and 60-70% of the emptying observed after a standard meal. At 100 mg/hr, erythromycin caused a 2.5-fold increase in plasma motilin concentration, which reached a peak after 30 min infusion. Plasma motilin peaked following maximum gallbladder emptying in all subjects. To evaluate whether cholinergic pathways were implicated in the action of erythromycin, 100 mg/hr erythromycin was infused together with 6 micrograms/kg/hr atropine. Atropine inhibited both gallbladder emptying and motilin release (P < 0.001). Infusion of 1 microgram/kg/hr somatostatin had the same inhibitory effects (P < 0.001). Our results suggest that atropine acts by inhibiting an erythromycin-activated cholinergic neural mechanism. Somatostatin could exert its inhibitory effect by blocking the release of acetylcholine from neural terminations.
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PMID:Erythromycin stimulates gallbladder emptying and motilin release by atropine-sensitive pathways. 135 62

We studied the secretion of somatostatin and HCl and the release of vasoactive intestinal polypeptide (VIP) and gastrin-releasing peptide (GRP) from isolated, vascularly perfused, porcine non-antral stomach. Electric vagus stimulation increased acid secretion and the release of VIP and GRP and inhibited somatostatin secretion as determined in the venous effluent. Atropine abolished the HCl response and reversed the somatostatin inhibition to a three-fold increase, whereas GRP and VIP responses were unchanged. Both intra-arterial carbachol (10(-6) M) and GRP (10(-8) M) increased acid secretion and inhibited somatostatin secretion. VIP (10(-8) M) increased somatostatin secretion and had no effect on acid secretion. By immunohistochemistry, somatostatin was localized to both open-type and closed-type cells equally spread in the various parts of the gastric glands without particular relation to the parietal cells. Numerous GRP- and VIP-immunoreactive nerve fibers were seen between the glands. It is concluded that the fundic and antral secretion of somatostatin, investigated in a previous study, are differently regulated. The relation of fundic somatostatin release to acid secretion seems to be complex.
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PMID:Vagal control of the release of somatostatin, vasoactive intestinal polypeptide, gastrin-releasing peptide, and HCl from porcine non-antral stomach. 135 31

Cholinergic mechanisms have been implicated in the regulation of anterior pituitary hormone secretion. The present study was designed to determine the effect of a single injection of an organophosphate acetylcholinesterase inhibitor, diisopropylfluorophosphate (DFP), on anterior pituitary function in male rats. DFP increased serum ACTH (2.7-fold) and corticosterone (9.1-fold), while suppressing TSH, PRL, LH, and GH by up to 95%. The earliest response was at 1 hr, with a duration of at least 18 hr for TSH and LH. Responses were similar in adrenalectomized animals. After DFP, responses to hypothalamic releasing factors were normal for TSH, GH, and ACTH, but significantly blunted for PRL and LH. TSH suppression was partially prevented by combined therapy with a nicotinic (mecamylamine) and a muscarinic (atropine) antagonist. TSH suppression was partially reversed by immunoneutralization with somatostatin antibody, and PRL suppression was completely prevented by a dopamine antagonist (haloperidol). Atropine alone prevented the effects on corticosterone. TSH pituitary content and TSH-beta mRNA were reduced by 37 and 22%, respectively, by DFP. In contrast, PRL mRNA was unchanged but PRL content was increased 3-fold. We conclude that cholinesterase inhibition evokes a multiplicity of effects on anterior pituitary function. There is a hierarchy of responses, with corticosterone being the most and TSH the least sensitive. There is evidence for inhibition at both the hypothalamic and pituitary levels, involving both nicotinic and muscarinic receptors. Although cholinesterase inhibition is the proximate event, other neurotransmitter pathways involved in TSH and PRL suppression are somatostatin and dopamine, respectively.
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PMID:Diisopropylfluorophosphate (DFP) reduces serum prolactin, thyrotropin, luteinizing hormone, and growth hormone and increases adrenocorticotropin and corticosterone in rats: involvement of dopaminergic and somatostatinergic as well as cholinergic pathways. 167 67

Frog esophageal mucosa contains peptide glands which release pepsinogen in response to a variety of secretagogues and serves as a model to examine the inhibitory action of somatostatin. The pepsinogen secretion in response to bethanechol was inhibited by somatostatin in a noncompetitive fashion. The maximal response induced by bethanechol was reduced and the EC50 for bethanechol was increased in the presence of somatostatin. On the other hand, somatostatin showed essentially no effect on pepsinogen release evoked by ionophore A23187, dibutyryl cAMP or by forskolin in the presence of atropine. Atropine was included in the incubation mixture to eliminate the effect of acetylcholine released by forskolin from the intrinsic cholinergic neurons also present in the mucosa. Somatostatin did not exert any significant effect on the basal or the forskolin-stimulated cAMP accumulation in the mucosa, nor the basal or the forskolin-stimulated adenylate cyclase activity in the membranes of the peptic cells isolated from the mucosa. Thus, these results seem to suggest that somatostatin inhibits pepsinogen secretion from frog esophageal mucosa by a cAMP-independent pathway.
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PMID:Somatostatin inhibits pepsinogen secretion via a cyclic AMP-independent pathway. 167 98

Slow waves determine rhythm and polarity of spike bursts. We measured the variation of slow-wave frequency (swf) and locking (swl) in the canine jejunum during the various phases of the migrating myoelectric complex (MMC) and during induced phase III (erythromycin 125 micrograms/kg iv bolus or somatostatin 2.5 micrograms.kg-1.h-1 iv infusion), blocked phase III (atropine 20 micrograms/kg iv bolus), and so-called stationary phase III activity (cisapride 150 micrograms/kg iv bolus). The EMG of 4 dogs, implanted with 10 bipolar electrodes, was recorded on a polygraph. Our results indicate that swf and swl change during the MMC from a stepwise swf gradient with slow waves locked in plateaus during phase I to a continuous swf gradient without or with significantly reduced phase locking during phase III. The length of the first swf plateau decreases significantly from 42 +/- 12 cm post Treitz during phase I to 11 +/- 4 cm during spontaneous phase III. Atropine block of phase III activity prevents phase unlocking and development of a continuous swf gradient. Our hypothesis is that phase unlocking may be one of the induction mechanisms of spike-burst activity.
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PMID:Variation of slow-wave frequency and locking during the migrating myoelectric complex in dogs. 168 71

The effects of intracisternal and intravenous injections of the somatostatin analog, SMS 201-995, on gastric acid secretion were investigated in rats with pylorus ligation or gastric cannula. Intracisternal injection of SMS 201-995 induced a dose-related (0.1-0.3 microgram) and long-lasting stimulation of gastric acid output with a peak response at 3 h postinjection in conscious, pylorus-ligated rats. Intracisternal SMS 201-995 increased histamine levels in the portal blood, whereas plasma gastrin levels were not modified. Atropine, cimetidine and adrenalectomy abolished the stimulatory effect of intracisternal SMS 201-995 (0.3 microgram). SMS 201-995 (0.03 microgram), microinjected unilaterally into the dorsal vagal complex, increased gastric acid output in urethane anesthetized rats. SMS 201-995, injected intravenously at 0.5 microgram, did not alter gastric secretion, whereas higher doses (5-20 micrograms) resulted in a dose-related inhibition of gastric acid secretion in conscious pylorus-ligated rats. These data indicate that SMS 201-995, a selective ligand for somatostatin-1 receptor subtype, induces a centrally mediated stimulatory effect on gastric acid secretion in rats. The central action involves the parasympathetic system, muscarinic and H2 receptors as well as adrenal-dependent pathways.
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PMID:Central action of somatostatin analog, SMS 201-995, to stimulate gastric acid secretion in rats. 192 21

The innervation of the heart of the snake Elaphe obsoleta was examined with peptide immunohistochemistry, glyoxylic acid-induced catecholamine fluorescence, and in vitro physiological preparations. Snakes were anesthetized with Nembutal. Many somatostatin (SOM)-like immunoreactive (LI) axons were observed in the sinus venosus, atria, and ventricle. Cell bodies with SOM-LI were found in the intracardiac nerve trunks of the sinus venosus, the interatrial septum, and the atrioventricular region. The SOM-LI axons and cell bodies were not affected by 6-hydroxy-dopamine and capsaicin. They are probably intrinsic parasympathetic neurons. Adrenergic, neuropeptide Y-LI, substance P-LI, and calcitonin gene-related peptide-LI axons were found in the sinus venosus, atria, and ventricle. In spontaneously beating sinoatrial or electrically driven atrial preparations, applied SOM (6 x 10(-9) M and 6 x 10(-8) M) decreased the force of atrial contraction and/or the rate of beating. The effects of SOM were tachyphylactic. SOM had no effect on the force of contraction of the driven ventricle. Stimulation of the left and right vagus nerves elicited negative chronotropic and inotropic responses followed by poststimulus positive inotropic and chronotropic responses. Atropine abolished the inhibition, and bretylium abolished the excitation. After cholinergic and adrenergic blockade, high-frequency vagal nerve stimulation had no effect on heart rate and the force of contraction. Thus, although there is an extensive distribution of intrinsic SOM-LI neurons in the heart and although applied SOM is a potent inhibitor of rate and force, SOM in the vagal neurons does not appear to act as a direct inhibitory transmitter to the cardiac muscle or pacemaker cells.
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PMID:Somatostatin and innervation of the heart of the snake Elaphe obsoleta. 197 Apr 54


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