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)

Somatostatin (SRIF) is a neuropeptide which inhibits secretion from a variety of target cells including pancreatic beta-cells. In this study we have used the RINm5F rat insulinoma cell line to characterize high affinity receptors for SRIF. The binding of 0.03 nM [125I-Tyr11]SRIF to RINm5F cells reached a plateau level within 4 h at 37 C at which time 80% of the total binding could be displaced by 100 nM unlabeled SRIF. In contrast, 100 nM concentrations of eight structurally unrelated peptides did not inhibit [125I-Tyr11]SRIF binding. Scatchard analysis indicated that RINm5F cells contained a single class of noninteracting binding sites (910 +/- 190 sites per cell) with high affinity for [125I-Tyr11]SRIF [equilibrium dissociation constant (Kd) = 0.04 +/- 0.01 nM]. Competition experiments with SRIF analogs showed that the binding affinity for [I-Tyr11]SRIF (Kd = 0.03 +/- 0.02 nM) was higher than that for either SRIF (0.24 +/- 0.04 nM) or [Tyr11]SRIF (0.27 +/- 0.04 nM) and that reduced SRIF analogs bound poorly (Kd greater than 50 nM). These results demonstrate that RINm5F cells possess specific, high affinity binding sites for SRIF. Insulin release stimulated by 20 mM leucine or 15 mM glyceraldehyde was inhibited as much as 80% by maximal concentrations (100 nM) of SRIF. The IC50 for SRIF inhibition of leucine-stimulated insulin secretion was 0.43 +/- 0.15 nM, in good agreement with the apparent Kd for binding. In fact, this close correlation between binding affinity and potency to inhibit insulin release was observed for six SRIF analogs, indicating that the characterized binding sites are the receptors which mediate the biological actions of SRIF in RINm5F cells.
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PMID:Characterization of somatostatin receptors which mediate inhibition of insulin secretion in RINm5F insulinoma cells. 288 82

A novel potent analogue of somatostatin, the octapepide SMS 201-995 was tested as a therapeutic manoeuvre to prevent hypoglycaemia in patients with insulinoma. We investigated the acute effects of a single 50 micrograms dose of the analogue administered s.c. in three patients, comparing the results in two of them with those obtained after administration of saline (control) and native somatostatin. In addition two patients were treated for up to 5 d with two or three daily s.c. injections (daily dose of analogue ranging from 100 to 300 micrograms). In two of the three patients SMS 201-995 suppressed circulating insulin levels by more than 50% and increased plasma glucose to hyperglycaemic levels for 6-8 h after a single injection. No undesirable effects of the administration of the analogue were observed. As opposed to insulin suppression obtained with native somatostatin, no rebound increase in insulin levels was observed after administration of the analogue. We conclude that SMS 201-995 prevented hypoglycaemia in two out of three patients with insulinoma. The advantage of s.c. administration, the long duration of action and the absence of a rebound phenomenon give this analogue a place in the pre-operative management of patients with insulinoma.
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PMID:On the use of a new somatostatin analogue in the treatment of hypoglycaemia in patients with insulinoma. 288 9

Previous studies with heterogeneous populations of pancreatic cells have provided evidence for the presence of somatostatin (SRIF) receptors in cytosol and secretion vesicles, as well as the plasma membrane. To examine the distribution of SRIF receptors between soluble and membrane fractions in a homogeneous pancreatic islet cell population, we have used the clonal RINm5F insulinoma cell line. These cells contain specific, high affinity binding sites for [125I-Try11]SRIF on the cell surface, and occupancy of these sites by SRIF and SRIF analogs correlates with inhibition of insulin secretion. Stable, steady state binding was achieved using both intact cells and membranes by performing binding incubations with [25I-Tyr11]SRIF at 22 C. Half-maximal inhibition of [125I-Tyr11]SRIF binding occurred with 0.21 +/- 0.11 nM SRIF in membranes and 0.35 +/- 0.30 nM SRIF in cells. In contrast, the binding of [125I-Tyr11]SRIF to cytosolic macromolecules was not reduced by concentrations of SRIF as high as 100 nM, demonstrating that this binding was of much lower affinity. RINm5F membranes were further purified using a Percoll gradient to prepare a microsomal fraction, which was enriched in adenylate cyclase activity, and a secretory granule fraction, which was enriched in insulin. [125I-Tyr11]SRIF binding to the microsomal fraction (3.8 +/- 0.3 fmol/mg) was 3 times higher than to secretion granules (1.2 +/- 0.2 fmol/mg). Thus, high affinity SRIF binding sites were most abundant in microsomal membranes and were low or undetectable in secretory granules and cytosol. To determine whether translocation of SRIF receptors to the plasma membrane accompanied insulin secretion, we examined the effects of various insulin secretagogues on [125I-Tyr11]SRIF binding to intact cells. Leucine (20 mM), glyceraldehyde (15 mM), forskolin (1 microM), and glucagon (1 microM) stimulated insulin release 1.5- to 4.0-fold in different experiments. However, these secretagogues did not increase [125I-Tyr11]SRIF binding. In summary, our results indicate that high affinity SRIF receptors in RINm5F cells are located primarily on the plasma membrane and that the concentration of SRIF receptors at the cell surface is independent of the secretory activity of the cells.
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PMID:Distribution of somatostatin receptors in RINm5F insulinoma cells. 289 29

Recently, somatostatin analogs have been introduced which can be used clinically in the treatment of tumorous or functional hypoglycemia. In the present study we investigated in vitro the regulation, the degree of autonomy and the sensitivity to natural somatostatin and its analog SMS 201-995 of insulin secretion by monolayer cultures of human pancreatic cells obtained from patients with insulinomas and from a newborn with nesidioblastosis. All cultures released insulin upon the addition of dibutyryl-cAMP and calcium, demonstrating their intact viability. Insulin secretion from nontumorous pancreatic cells surrounding an insulinoma was dose-dependently stimulated by glucose. In contrast, insulin release by B cells from a patient with nesidioblastosis and from 2 insulinomas was not stimulated by the addition of glucose. Native somatostatin (SRIF) and the synthetic analog SMS 201-995 inhibited insulin secretion from all cultures. The inhibitory effects of SRIF and SMS in the culture from the nesidioblastosis tissue, could be reversed by the addition of 11.2 mmol glucose/l, but not in one of the insulinoma cultures. This demonstrates that some sensitivity to glucose is present in B cells from the nesidioblastosis tissue, despite the unresponsiveness to glucose alone. Insulin release by insulinoma cells was blocked by somatostatin, while it was inhibited to some extent only in the cultures of nontumor B cells and of cells from the nesidioblastosis tissue. In conclusion, it was shown that insulin release by the cultured B cells obtained from several pathological conditions differed with regard to the autonomy of hormone release (glucose sensitivity) and the sensitivity to somatostatin and its analog.
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PMID:Studies on insulin secretion by monolayer cultures of normal and tumorous human pancreatic cells. Effects of glucose, somatostatin and SMS 201-995. 289 88

Somatostatin, an hyperglycemia-inducing hormone, was studied in rat insulinoma (RINm5F) cells using 86Rb+ efflux techniques. 86Rb+ efflux is stimulated by somatostatin in a dose-dependent manner. The half-maximum value of activation is 0.7 nM. Somatostatin-induced 86Rb+ efflux is abolished by the hypoglycemia-inducing sulfonylurea, glibenclamide, a known blocker of ATP-regulated K+ channels. Somatostatin activation is prevented by pretreatment of insulinoma cells with pertussis toxin. 86Rb+ efflux studies show that somatostatin activates an ATP-dependent K+ channel.
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PMID:Somatostatin activates glibenclamide-sensitive and ATP-regulated K+ channels in insulinoma cells via a G-protein. 290 89

A patient presented to the hospital with a persistent high-output (greater than 250 ml/day) external pancreatic fistula after an enucleation of an insulinoma 5 months earlier. Daily treatment with SMS 201-995, a long-acting somatostatin analogue, for 8 days decreased fistulous output to less than 5 ml/day. The patient was discharged in stable condition 9 days after admission. All drainage ceased 2 days later, and the fistula has remained closed. SMS 201-995 has been shown to be effective in decreasing fistulous output of external pancreatic fistulas of various origins. With its few side effects and remarkable effectiveness, SMS 201-995 should be considered in the conservative management of any external pancreatic fistula.
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PMID:Short-term administration of SMS 201-995 in the management of an external pancreatic fistula. 291 93

RIN-m cells, cultured from a rat insulinoma, not only bind and secrete but also degrade insulin (Diabetes 1982; 31:521-31). The insulin-degrading activity resides in the cytosol and is similar to the insulin-specific proteases previously described in muscle and other tissues. It has an apparent Km of 0.15 microM for porcine insulin in crude cell-free extracts, a competitive inhibition constant for proinsulin that is close to the Km, and a lower but measurable affinity for glucagon. The enzyme is inactive at pHs below 6.0, indicating that it is not lysosomal, is completely inhibited by N-ethylmaleimide, and exhibits apparent competitive inhibition constants (microM) for the following peptides: desoctapeptide insulin, 0.043; guinea pig insulin, 0.048; proinsulin, 0.64; insulin B-chain, 1.17; glucagon, 7.0; and cyclic somatostatin, 8.6. Highly active insulin-degrading activity was found using cell suspensions of 22 cloned and 8 subcloned cell lines derived from RIN-m as well as 11 other continuous cell lines derived from a variety of nonislet tissues of rat, mouse, and human origin. Homogenates of the original rat islet tumor and cytosol of normal rat islets also contained insulin-degrading activity. Although insulin protease is present in a variety of tissues, it may have an additional regulatory function in cells that are actively synthesizing, storing, and secreting insulin.
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PMID:Cytosolic insulin-degrading activity in islet-derived tumor cell lines and in normal rat islets. 298 50

The rapid growth (0.8 +/- 0.3 g/day) of a transplantable insulinoma, which also contained substance P (2.9 +/- 2.3 pmol/g) and gastrin-releasing peptide (3.2 +/- 2.1 pmol/g), resulted in the development of hyperphagia, hyperinsulinaemia and hypoglycaemia in rats (n = 8). After a 14-day growth period, the insulinoma-bearing rats showed an increase (49%; p less than 0.01) in the weight of the small intestine but no significant change in stomach weight compared with control animals. The content (pmol/organ) of somatostatin, substance P, neurokinin A and vasoactive intestinal peptide in the stomachs of the tumour rats was unchanged. A depletion in the content (53% p less than 0.01) and concentration (57%; p less than 0.01) of gastrin-releasing peptide, however, suggested either hypersecretion, possibly mediated through hypoglycaemia-induced vagal stimulation, or inhibition of synthesis. The concentration and content of glucagon-like immunoreactivity (enteroglucagon) in the small intestine of the insulinoma rats increased markedly (47%; p less than 0.01 and 120%; p less than 0.01). This increase is consistent with a proposed role of this peptide as a factor trophic to the intestinal mucosa. No significant changes in the concentrations of somatostatin, substance P, neurokinin A, vasoactive intestinal peptide and gastrin-releasing peptide in the small intestine were observed. However, the increase in gut weight resulted in a greater content of vasoactive intestinal peptide (40%; p less than 0.01) and substance P (37%; p less than 0.05) in the insulinoma rats.
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PMID:Effects of a transplantable insulinoma upon regulatory peptide concentrations in the gastrointestinal tract of the rat. 301 8

The effects of cytotoxic drugs and inhibitors of insulin secretion were examined in vivo in rats with a radiation-induced transplantable insulinoma, and in vitro using cultured rat insulinoma cells and the derived RINm5F insulin-secreting cell line. Administration of diazoxide to insulinoma-bearing rats resulted in a transient decrease of plasma insulin with a temporary rise of glucose concentrations. Mannoheptulose and somatostatin failed to affect the marked hyperinsulinaemia and hypoglycaemia. Streptozotocin produced a rapid and sustained decrease of insulin concentrations in insulinoma-bearing rats, accompanied by a progressive elevation of plasma glucose. Administration of alloxan failed to affect circulating insulin or glucose concentrations. In vitro, streptozotocin and alloxan exerted approximately equipotent time-dependent and concentration-dependent cytotoxic effects on insulinoma cells and RINm5F cells as established by cell staining with trypan blue. The cytotoxic actions of both drugs were decreased by agents believed to scavenge free radicals or to act as inhibitors of poly(ADP-ribose) synthetase. The results suggest that the cytotoxic actions of streptozotocin and alloxan on rat insulinoma cells and RINm5F cells are mediated by the generation of hydroxyl free radicals and DNA strand breaks. The ineffectiveness of alloxan in insulinoma-bearing rats probably reflects the high rate of decomposition of the drug in vivo.
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PMID:Effects of cytotoxic drugs and inhibitors of insulin secretion on a serially transplantable rat insulinoma and cultured rat insulinoma cells. 303 37

A novel putative polypeptide hormone identified as islet amyloid polypeptide (IAPP) was recently purified from islet amyloid (IA) of diabetic humans and cats, and also from amyloid of a human insulinoma. Although the function of IAPP is yet unknown, its occurrence in pancreatic endocrine tissue and its partial amino acid sequence identity with calcitonin gene-related peptide (CGRP) suggests an endocrine regulatory effect. In the present investigation, the authors utilized antisera to insulin, glucagon, somatostatin, pancreatic polypeptide, synthetic human CGRP, and a synthetic human IAPP (7-17) undecapeptide to immunohistochemically (PAP technique) document the presence of IAPP immunoreactive cells in the islets of the cat, dog, mouse, and rat, but not in the islets of the horse or calf. In serial sections of islets from these species it was shown that IAPP immunoreactivity occurred in insulin-reactive beta cells. This observation was confirmed immunocytochemically in cat islets by means of protein A-gold probes. With protein A-gold labeling techniques, IAPP immunoreactivity was localized to the outer lucent compartment of the beta cell secretory granule, whereas insulin immunoreactivity was associated with the electron-dense core. These findings provide strong evidence that IAPP or an IAPP precursor is synthesized by beta cells and is stored in beta cell granules for subsequent co-secretion with insulin. The conservation of IAPP in humans and multiple animal species and the localization of IAPP to pancreatic beta cells provide further evidence that IAPP has an important endocrine regulatory function. The propensity of IAPP to polymerize and form IA fibrils in diabetes associated with aging may indicate that IAPP is in some way also linked to the development of Type 2 diabetes.
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PMID:Immunolocalization of islet amyloid polypeptide (IAPP) in pancreatic beta cells by means of peroxidase-antiperoxidase (PAP) and protein A-gold techniques. 327 6

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