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)

We have earlier demonstrated that human growth hormone stimulates DNA synthesis and proteoglycan production in cultured chondrocytes. The present study is concerned with the effects of somatostatin and other neuropeptides on cell proliferation by cultured rat rib growth plate chondrocytes. Chondrocytes were isolated from the growth plates by collagenase digestion and cultured as monolayers in multiwell plates. The cells were allowed to attach overnight and subsequently incubated for 24 h under serum-free conditions to establish growth arrest. Somatostatin and other peptides were then added and the cultures were incubated for 18 h. Finally, the cultures were labelled for 6 h with tritiated thymidine in the presence of peptide. For screening purposes, the effect on DNA-synthesis was assayed as incorporation of [3H]-thymidine into acid-insoluble material. For a more exact estimate, parallel cultures were prepared for autoradiography and the fraction of labelled nuclei was determined by counting. Among the peptides we tested (somatostatin, GRF, TRH, SP, mENK, PHI, VIP, hCT) only somatostatin had any discernible effect on DNA synthesis, with an apparently optimal effect at 10 fM. This concentration is well within the range found in various tissues in vivo and suggests a physiological role for somatostatin in chondrocyte growth regulation. Further experiments are required, however, to clarify by which mechanism somatostatin influences the cells and whether the peptide interacts with other growth factors such as the IGFs.
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PMID:Stimulative effect of somatostatin on cell proliferation in cultured chondrocytes. 288 5

Somatostatin, somatotropin release-inhibiting factor (SRIF), is a regulatory peptide that has proved to directly inhibit parietal cell acid secretion. However, the therapeutic usefulness of SRIF has been limited by a brief plasma half-life. Several analogues of SRIF that are effective in suppressing acid secretion in vivo have been developed. This study was undertaken to compare the effects of SRIF and two analogues, SMS 201-995 and L-363,568, on in vitro acid secretion. We used isolated rabbit parietal cells prepared by collagenase digestion and counterflow elutriation. Acid secretion was assessed by the accumulation of 14C-aminopyrine within the cells. Two types of secretagogues were utilized: histamine (10(-6) mol/L), a membrane receptor agonist which acts by means of adenylate cyclase and cyclic AMP, and forskolin (10(-6) mol/L), a direct activator of adenylate cyclase. SRIF, SMS 201-995, and L-363,568 (10(-11) to 10(-7) mol/L) all significantly inhibited histamine-stimulated 14C-AP uptake (p less than 0.001). On a molar basis, SMS 201-995 was 10 times more potent and L-363,568 was 40 times more potent than SRIF. SRIF, SMS 201-995, and L-363,568 significantly inhibited forskolin-stimulated 14C-AP uptake (p less than 0.005). The inhibitory effects of SRIF and both analogues on forskolin-stimulated acid secretion was, however, significantly less than that observed with histamine (p less than 0.05). These results demonstrate increased in vitro potency of SRIF analogues compared with the native peptide. The data are consistent with the hypothesis that SRIF and its analogues function at more than one site within the parietal cell.
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PMID:Somatostatin analogue inhibition of isolated parietal cell secretion. 289 Dec 2

The interhormonal relationship within the pancreatic islets have been studied by previous investigators, but the cellular interplay and the sequence of events in the islet cell's response to stimulators has remained unclear. In the present study, pancreatic islets were isolated by collagenase digestion from normal and streptozotocin-diabetic hamsters the latter being maintained with insulin treatment. The diabetic animals were used to provide A- and B-cell enriched islets. The islets from normal and diabetic hamsters were cultured in medium 199 plus 10% fetal calf serum with 0.8 or 5 mg/ml glucose. The cultures were maintained for up to seven days with medium changes every third day. At specified intervals, media were collected and assayed for insulin, glucagon and somatostatin. Our results showed the expected increased insulin secretion by the B-cells in response to high glucose. However, after two days of culture accumulative insulin secretory response was reduced and at the end of seven days was less than the insulin produced in low glucose medium. Glucagon secretion by the A-cells was similar for low and high glucose media for the entire culture period. Somatostatin secretion by D-cells was stimulated by high glucose but was attenuated after 2 days. No correlation could be found between the concentration of hormone in the media and a possible effect on a specific islet secretion. However, the fact that insulin secretion by islets cultured in high glucose was decreased after two days may indicate a refractoriness produced by persistent hyperglycemia. Islets isolated from diabetic animals secreted more glucagon and less insulin than control islets. Somatostatin secretion was the same in both groups. It was concluded that paracrine relationships were relatively insignificant in the regulation of islet secretion in a prolonged culture environment and persistent high glucose reduced the B-cell response to glucose stimulation.
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PMID:Insulin, glucagon and somatostatin secretion by cultured islets from normal and diabetic hamsters. 289 3

Growth hormone releasing factor (GHRF) was examined to determine whether it affects somatostatin (SRIF) release from cultured rat hypothalamic cells and fragments in vitro. The hypothalami of rat fetuses were collected on the 17th day of pregnancy under a dissection microscope. Thirty hypothalami were placed in phosphate buffered saline, and the cells were dispersed with 0.1% collagenase. The dispersed cells were cultured in Dulbecco's modified Eagle medium (DMEM) containing 10% horse serum and 2.5% fetal calf serum at 37 degrees C under 5% CO2 in air. On the 12th day of culture, the cells were washed with Krebs Ringer bicarbonate buffer containing glucose (KRBG), and then incubated with KRBG for 1 hour. The medium was replaced with KRBG alone (control) or KRBG containing test substances, and incubated for another hour. SRIF released into the medium was quantitated by RIA. The mean basal release of SRIF was 14.7 +/- 0.9 pg/dish/hour. One-tenth, 1, and 10nM hpGRF44 stimulated SRIF release by 1.4, 1.5, and 1.8 fold respectively in a dose-related manner. Ten nM ovine corticotropin releasing factor (o-CRF) also stimulated SRIF release by 2.3 fold. One, 10, and 100 nM hpGRF44, 10nM o-CRF, 10nM thyrotropin releasing hormone (TRH) and 60 mM K+ also stimulated SRIF release from rat hypothalamic fragments. Removal of Ca++ from the medium resulted in a decrease of basal release of SRIF. In Ca++ free medium, 10nM hpGRF44 failed to release SRIF. One-tenth nM hpGRF44, 10nM GnRH, and 10nM VIP have no effect on SRIF release statistically. The results of this study demonstrate that a high concentration of GHRF stimulates SRIF release from the hypothalamus in vitro, suggesting a possibility that GHRF may increase the release of SRIF from the median eminence and the hypothalamus in vivo under certain conditions.
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PMID:The stimulation of somatostatin release by hpGRF44 from rat hypothalamic cells and fragments in vitro. 289 40

It has previously been demonstrated that somatostatin (SRIF) directly inhibits parietal cell secretion. However, the significance of SRIF as a paracrine agent and mechanisms of local gastric SRIF release are not clear. Vasoactive intestinal peptide (VIP) and calcitonin gene-related peptide (CGRP) are neuropeptides which have been localized in the gastric fundus and have been demonstrated to inhibit gastric acid secretion in vivo. The present study examines the hypothesis that CGRP and VIP act via the release of gastric fundic SRIF. The study utilized rabbit isolated gastric glands prepared by collagenase digestion. Glands were incubated alone, or with 10(-10)-10(-6) M CGRP or 10(-10)-10(-6) M VIP for 30 min. Supernatant SRIF was measured using a specific radioimmunoassay. Unstimulated SRIF release was 101 +/- 16 fmole/ml. CGRP (10(-7) and 10(-6) M) and VIP (10(-7) and 10(-6) M) resulted in significant SRIF release. The maximum release of SRIF by CGRP (506 +/- 113 fmole/ml) was significantly greater than that by VIP (293 +/- 33 fmole/ml) (P less than 0.05). However, both these concentrations of SRIF are comparable to the ID50 concentration (4.5 X 10(-10) M) for SRIF inhibition of acid secretion by isolated parietal cells as assessed by [14C]aminopyrine accumulation. These results are consistent with the hypothesis that CGRP and VIP inhibition of acid secretion may be mediated, at least in part, by the local release of SRIF from the gastric fundus. These data further support the significance of paracrine interactions in the modulation of cellular secretory function.
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PMID:Gastric somatostatin release: evidence for direct mediation by calcitonin gene-related peptide and vasoactive intestinal peptide. 289 38

A primary culture of mammalian parafollicular cells was established from rat thyroid glands in order to investigate the effects of serotonin and somatostatin on calcitonin secretion. Minced rat thyroid glands were dissociated with collagenase and cultured in a Ham's F-12K medium supplemented with calf serum (5%), insulin (1.3 X 10(-6) mol/l), hydrocortisone (10(-8) mol/l), transferrin (6.1 X 10(-9) mol/l), and glycyl-L-histidyl-L-lysin (2.5 X 10(-8) mol/l). Immunohistochemical peroxidase-antiperoxidase method revealed that the cultured parafollicular cells were immunopositive for human calcitonin, and electron microscopy demonstrated the existence of dense secretory granules in the cultured parafollicular cells. Addition of the Ca2+ to the culture medium stimulated calcitonin secretion from the cells dose-dependently as measured by radioimmunoassay. Pre-incubation of serotonin with the cells produced higher calcitonin levels in a dose-dependent manner. On the other hand, pre-incubation of somatostatin with the cells significantly inhibited calcitonin secretion.
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PMID:Effects of somatostatin and serotonin on calcitonin secretion from cultured rat parafollicular cells. 289 90

Functional gastrin-containing tumor cells (GT cells) have been maintained in short-term culture on microporous membranes, and their response to selected agents has been determined. After dispersion of gastrinoma by collagenase-DNAase digestion coupled with mechanical disruption, dispersed cells were depleted in stromal material by selective attachment to a plastic substrate, then cultured for 72 hours on porous cellulose membranes. Cultures contained 68 +/- 5% GT cells with a viability of 92 +/- 2%. Secretin stimulated the rate of gastrin release from cultured GT cells in both a time- and a dose-dependent fashion. To examine the possible involvement of adenylate cyclase- and protein kinase C-mediated mechanisms in regulating gastrin release from the neoplastic GT cells, we evaluated the effects of 8-bromoadenosine 3':5'-cyclic monophosphate (8-BrcAMP; 10(-4) - 10(-2) mol/L), the diterpene forskolin (10(-5) mol/L), 12-0-tetradencanoylphorobol 13-acetate (TPA; 10(-8) - 10(-6) mol/L), and 4 alpha-phorbol 12,13-didecanoate (4 alpha PDD; 10(-8) - 10(-6) mol/L) on gastrin release. Among all compounds tested, 8-BrcAMP (10(-2) mol/L) was the most potent, stimulating the rate of gastrin release 263% above basal. Both 8-BrcAMP and TPA stimulated gastrin release in a dose-dependent fashion. The biologically inactive phorbol ester, 4 alpha PDD, was without effect at all concentrations. Somatostatin (10(-8) - 10(-6) mol/L) inhibited 8-BrcAMP-stimulated gastrin release in a dose-dependent fashion to a maximum of 75%.
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PMID:Control of gastrin release in cultured gastrinoma-derived G cells. 289 16

Pancreastatin is a recently identified 49-amino-acid peptide found in gastrointestinal tract and gastric mucosa. Its biologic effects on gastric function are unknown. The aim of this study was to determine the effects of pancreastatin [33-49] (the synthetic C-terminal fragment) on acid secretion and somatostatin release in vitro. Isolated rabbit gastric glands were prepared by means of collagenase digestion. Acid secretion was assessed indirectly with use of 14C-aminopyrine (AP) uptake by glands, and somatostatin release from D cells was measured with radioimmunoassay. Pancreastatin alone (10(-10) to 10(-6) mol/L) had no effect on 14C-AP uptake compared with unstimulated glands. In contrast, pancreastatin inhibited with histamine-(10(-6), 10(-5) mol/L; p less than 0.005) and carbachol-(10(-5), 10(-4) mol/L; p less than 0.001) stimulated 14C-AP uptake in a dose-dependent manner. Neither forskolin-(10(-6), 10(-4) mol/L; p greater than 0.50) or 8-Br-cAMP-(10(-5), 10(-4) mol/L; p greater than 0.30) stimulated 14C-AP uptake were influenced by pancreastatin. Pancreastatin had no effect on somatostatin release from glands. These data suggest that pancreastatin probably acts at receptor or membrane level, inhibiting both histamine- and carbachol-stimulated 14C-AP uptake. These effects are not mediated by D cell somatostatin release. It is possible that pancreastatin acts as a paracrine or endocrine inhibitory regulator of parietal cell secretion.
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PMID:Pancreastatin: a novel peptide inhibitor of parietal cell secretion. 290 81

Development of a single follicle during the menstrual cycle is under control of hormones stimulating follicular maturation, ovulation and luteogenesis. Several factors intervene locally to prevent other follicles from developing at the same time as dominant follicle. These other follicles remain quiescent or evaluate to atresia. Atresia results from the action of several endocrine, paracrine and autocrine mechanisms which synergistically inhibit aromatase activity. The subsequent lack of estrogens reduces granulosa cell multiplication. The oocyte will not become fertilizable before the preovulatory peak of LH, after the resumption of meiosis and after reaching metaphase of the second meiotic division. Several factors are involved in the inhibition of spontaneous resumption of meiosis: cyclic nucleotides, sex steroids, somatostatin and oocyte maturation inhibitor(s) (OMI). Ovulation is related to breakdown of connective tissue synthesized by granulosa cells under the influence of FSH. Connective tissue lysis is dependent on proteolytic enzymes which are released and activated by FSH, LH and relaxin. A paracrine control could be involved in ovulation: LH induces the production of prostaglandin and relaxin by theca cells which, in turn, stimulate collagenase and proteoglycanase secretion by granulosa cells.
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PMID:Endocrine, paracrine and autocrine control of follicular development. 329 54

Development of a single follicle during the menstrual cycle is under control of hormones stimulating follicular maturation, ovulation and luteogenesis. Several factors intervene locally to avoid other follicles developing at the same time as the dominant follicle. These other follicles remain quiescent or go on to atresia. Atresia results from the action of several endocrine, paracrine and autocrine mechanisms which synergistically inhibit aromatase activity. The subsequent lack of oestrogens reduces granulosa cell multiplication. The oocyte will not become fertilizable before the preovulatory peak of LH, after the resumption of meiosis and after reaching the metaphase of the second meiotic division. Several factors are involved in this inhibition of spontaneous resumption of meiosis: cyclic nucleotides, sex steroids, somatostatin, oocyte maturation inhibitor(s) (OMI). Ovulation is related to breakdown of connective tissue synthesized by granulosa cells under the influence of FSH. Connective tissue lysis is dependent on proteolytic enzymes which are released and activated by FSH, LH and relaxin. A paracrine control could be involved in ovulation: LH induces the production of prostaglandin and relaxin by theca cells which, in turn, stimulate collagenase and proteoglycanase secretion by granulosa cells.
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PMID:[Endocrine, paracrine and autocrine mechanisms involved in follicular development]. 333 Jul 30

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