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 inhibition by somatostatin (SRIF) of basal and arginine-stimulated glucagon, insulin, and glucose levels was compared with that obtained when SRIF was preceded by alpha-adrenergic blockade with phentolamine. No noteworthy differences were observed, except that the characteristic rebound of insulin upon discontinuation of SRIF was significantly lower with phentolamine (P less than 0.01). These results indicate that inhibition of basal and arginine-stimulated glucagon and insulin secretion by SRIF in man is not mediated through activation by alpha-adrenergic receptors.
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PMID:Phentolamine and the action of somatostatin in man. 21 13

The data presented concern the chemistry and biology of cardiotrop peptides and proteins isolated by us from the hypothalamus. The molecular mechanisms of the effect of neurohormone "C" (NC) as well as of a new cardiotrop hexapeptide from cattle hypothalamus are discussed. In in vitro studies on homogenates NC has been found to inhibit greatly not only 3'--5'-cyclo-AMP phosphodiesterase activity of brain and heart but also 3'--5'-cyclo-GMP phosphodiesterase activity. NC has been shown to be bound to specific proteins and to the regulatory unit of cyclo-AMP-dependent histone kinase of brain. It seems to compete with cyclo-AMP for the same proteins and is considered to be a regulator of intracellular cyclic nucleotides. NC has been shown to be combined to specific proteins in brain with non covalent bonds. A new cardiotrop hexapeptide has been shown to be present in bovine hypothalamus and its chemical structure has been found to be Tyr-Leu-Gly-Arg-Pro-Gly-amide. The acetylated form of this hexapeptide, which may be also present in brain, is much more active. The radioimmunochemical experiments carried out with antiserum 744 (from prof. Schally) by us have confirmed the existence of this hexapeptide and other fragments of LH-RH in the bovine hypothalamus. The effect of this hexapeptide on cardiac function and metabolism has been compared with a number of polypeptides (luliberin fragments). The hexapeptide has been shown to have not only cardiotropic but also a hypoglycaemic effect. It enhances the secretion of insulin and counteracts the inhibitory action of somatostatin on the insular apparatus. The hexapeptide produces significant changes in the activities of phosphorylase a and b as well as in that of phosphoprotein phosphatases. It reduces the amount of kinines in blood. Certain fractions of substance P, have been shown to have cardiotrop actitivty--they increase the rate of blood leaving the heart. The organotrop effects of a number of peptide neurohormones are discussed in connection with the hexapeptide. The results obtained have shown that the mechanisms underlying the effects of the cardioactive substances found by us are quite different. The data presented show that in brain a number of chemical factors (mainly peptides) are formed, which are involved in the regulation of heart function.
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PMID:[Chemistry and biology of hypothalamic cardioactive proteins and peptides]. 22 93

Effects of somatostatin on fasting and arginine-or tolbutamide-stimulated insulin release were studied in four patients with insulinoma. Somatostatin (bolus or bolus + infusion) reduced fasting insulin values in all patients; insulin response to tolbutamide was partially reduced in two patients; somatostatin bolus impaired the insulin response to arginine. Fasting glucagon levels and glucagon response to arginine were also reduced by somatostatin. These results indicate the potential usefulness of somatostatin in the diagnosis of insulinoma even if its effect on insulin is only partial.
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PMID:Effects of somatostatin on insulin and glucagon in patients with insulinoma. 23 Oct 62

As impairment in coagulation and platelet function has been reported following acute administration of somatostatin, a reevaluation of the effects of the cyclic and linear form of the peptide was undertaken. In vitro somatostatin had no effect by itself on platelet aggregation and no effect on ADP- or ristocetin-induced aggregation. In vivo ten healthy men infused with cyclic or linear somatostatin (loading dose of 250 microgram and three hour-infusion with 1,500 microgram) and five control subjects were investigated during the infusion and for three hours after the end of the infusion. With this dose, sufficient in man for maintaining plasma growth hormone and insulin at fasting levels under arginine stimulation, no abnormalities in platelet count, in ADP-induced platelet aggregation and in plasma VIII von Willebrand factor, factor VIII procoagulant activity and factor VIII related antigen levels were observed.
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PMID:Effect of somatostatin on platelet aggregation and plasma factor VIII level in normal man. 30 25

The location of the somatostatin-containing D-cells of the pancreatic islets between the A- and B-cells suggests that their function might be to inhibit insulin and/or glucagon secretion by these neighboring cells. To determine if insulin and/or glucagon, in concentrations that might be present in the extracellular space surrounding the D-cells, stimulate immunoreactive somatostatin (IRS) release, we perfused 10 microng of glucagon or 10 milliunits of insulin per ml in 11 isolated dog pancreases, for 40 min in seven experiments and for 100 min in four experiments. In eight of the nine experiments in which glucagon was perfused, a prompt and significant rise in mean IRS release, ranging from 71 to 128% above the control level, was observed. In the eight experiments in which insulin was perfused. IRS did not increase during the first 40 min; in the two 100-min insulin experiments, it did rise during the final 50 min, however. To determine the effect of an A- and B-cell secretogogue on IRS release, we perfused 20 mM arginine for 60 min in six experiments. In all, IRS rose within 3 min and reached a level 71-465% above the control, remaining significantly elevated throughout the perfusion, while glucagon and insulin rose to peak levels at 2 min and then declined somewhat despite continuing arginine perfusion. The results indicate that perfusion of the normal dog pancreas with high doses of glucagon or arginine is accompanied by a prompt increase in IRS release and are compatible with a local feedback circuit involving A- and D-cells. Insulin appears not to augment IRS release, at least not promptly, but IRS stimulated by local endogenous glucagon could inhibit the B-cell response to locally secreted glucagon and thereby influence the composition of the insulin/glucagon secretion mixture.
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PMID:Pancreatic immunoreactive somatostatin release. 32 67

The effects of somatostatin (SRIF) on glucagon release have been studied in the monolayer culture of newborn rat pancreas. It was found that SRIF inhibited glucagon release rapidly and in a dose dependent manner at concentrations of 1-1000 ng/ml. SRIF inhibited glucagon release under basal conditions and after stimulation by arginine, 3-isobutyl-1-methylxanthine (IBMX), high Ca++ concentrations, ionophore A23187 and Ca++, and Ba++. SRIF inhibited ionophore-induced glucagon release over 60 min when a low concentration of A23187 was used (0.1 microgram/ml) but not when a high concentraion (10 microgram/ml) was used. The stimulant effect of 10 microgram/ml A23187 was, however, inhibited by SRIF during short periods of incubation. The per cent inhibition of arginine-stimulated glucagon release due to SRIF remained unchanged when the Ca++ concentration in the medium was varied from 1-10 mM. It is concluded that SRIF promptly inhibits glucagon release under basal conditions or when stimulated by a variety of agents. Thus, the action of SRIF appears to be basic to the granule release process and not specifically antagonisitc to any particular stimulants. Further, as SRIF inhibits release due to raised cytosol Ca++ (e.g., ionophore-Ca++ or high Ca++ experiments) the action is probably at a late point in the release mechanism.
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PMID:Somatostatin inhibition of pancreatic glucagon release from monolayer cultures and interactions with calcium. 33 Jan 54

This study was performed in order to evaluate the effects of somatostatin on insulin releasing mechanisms and on glucose uptake in peripheral tissues using isolated pancreatic islets, isolated rat diaphragms and epididymal fat pads. Insulin release by various concentrations of glucose were examined, and it was found that 100 ng/ml of somatostatin significantly inhibited insulin release at the glucose concentration of 200 mg/dl. Somatostatin also significantly inhibted insulin release by the administration of 5microgram/ml of glucagon with 200 mg/dl of glucose concentration and 20 mM of orginine with 200mg/dl of glucose concentrations. But at the glucose concentration of 50mg/dl, no significant inhibition of somatostatin on insulin release was observed even when various concentrations of glucagon or arginine were added. The influence of somatostatin on peripheral tissues was examined in vitro, and no significant change on glucose uptake compared with the control group was shown in either tissues. The results indicated that somatostatin directly inhibited insulin release from rat pancreatic islets but had no effect on glucose uptake in peripheral tissues. The inhibitory effect of somatostatin on insulin release may act through the common mechanism of both glucose and other substances in leading to insulin release.
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PMID:[Effects of somatostatin on pancreatic isolated islets and peripheral tissues of rats]. 33 84

An animal model for testing the in vivo potency of somatostatin analogs in inhibiting the release of insulin and glucagon is described. The secretion of these pancreatic hormones was stimulated in rat by infusion of arginine. The plasma insulin level increased almost to a maximum after an infusion of 10 min, while plasma glucagon rose more slowly, reaching its maximum only after a 30 min infusion. Concomitant infusion of graded doses of somatostatin (2.5, 10, 40 and 160 microgram/100 g BW) for 30 min inhibited both insulin and glucagon release in a dose-dependent manner, enabling us to test somatostatin analogs for insulin and glucagon-suppressive activity in a semi-quantitative manner. Using this animal model, 3 analogs of somatostatin [D-Cys14]-, [Ala2, D-Cys14]- and [D-Trp8, D-Cys14]somatostatin were tested in a 4-point assay. They all showed dissociated activity in inhibiting the secretion of glucagon more than that of insulin.
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PMID:An in vivo model for testing inhibition of arginine-induced insulin and glucagon release by somatostatin analogs. 33 62

Islets were isolated by mild collagenase digestion and microdissection from rat fetuses 2 days before term and pups 1 or 2 days after birth and their insulin and glucagon secretion studied in vitro. Fetal B cells were stimulated by 16.7 mmol/l glucose, 20 mmol/l leucine or 20 mmol/l arginine. Fetal A cells were not affected by glucose or leucine, but were significantly stimulated by arginine. Somatostatin abolished the effect or arginine on both IRI and IRG output. Neonatal islets proportionally released more insulin and glucagon than their fetal counterparts, but reacted to the tested agents in a similar fashion. During the perinatal period, pancreatic insulin storage increased at a higher rate than that of glucagon. It is concluded that fetal B cells are equipped with sensors to a variety of agents and able to modulate their secretory rate according to the concentration of these agents. A cells are reactive to arginine 2 days before term but do not become glucose reactive until several days after birth.
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PMID:Insulin and glucagon secretion by islets isolated from fetal and neonatal rats. 36 57

A tissue culture-perifusion system is described that allows for long-term culture of pancreatic islets and study of the dynamics of islet hormone secretion. Islets cultured in this system demonstrate brisk, reproducible biphasic insulin and glucagon release. Glucose-stimulated insulin release is similar after 1 or 14 days in culture. Freshly isolated islets are relatively insensitive to somatostatin, requiring 100 ng/ml to suppress partially the glucose-induced insulin secretion. After 24 h of culture, the same islets demonstrate a marked increase in sensitivity to this hormone. Glucagon secretion from islets maintained in this system occurred in a predictable fashion to arginine stimulation and glucose inhibition.
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PMID:Insulin and glucagon secretion from rat islets maintained in a tissue culture-perifusion system. 37 72

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