Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

This study investigates the effects of the islet hormones, insulin (Ins), glucagon (Glu) and somatostatin (Som) with cholecystokinin octapeptide (CCK-8) on amylase secretion and intracellular free calcium concentration [Ca2+]i and their pattern of distribution in the isolated pancreas of normal and diabetic rats. Ins and Glu evoked small increases in amylase output from pancreatic segments compared with a much enhanced effect of CCK-8. In contrast, Som induced a biphasic response comprising an initial decrease followed by a secondary increase and this biphasic response may be dependent upon the concentration. Combining the islet hormones with CCK-8 resulted in marked potentiation in amylase output compared with either CCK-8 alone or the individual hormone. Genistein and tyrphostin A25, the tyrosine kinase inhibitors, evoked a small decrease in amylase output from pancreatic segments. They had no effect on the CCK-8-evoked secretory response but markedly inhibited the potentiation of the islet hormones with CCK-8. In pancreatic acini and acinar cells Ins, Glu and Som individually evoked small increases in amylase output compared with a much larger response with CCK-8. When the islet hormones were combined with CCK-8 there was no potentiation of amylase output. Similarly, when rats were rendered diabetic by prior treatment with streptozotocin Ins, Glu and Som failed to potentiate the secretory response of CCK-8. In fura-2-loaded pancreatic acinar cells Ins or Glu evoked small increases in [Ca2+]i compared with a much larger elevation with CCK-8. Ins, Glu and Som each enhanced the CCK-8-evoked [Ca2+]i. Genistein elicited a decrease in [Ca2+]i both in the absence and presence of the islet hormones. It also decreased the elevation in [Ca2+]i resulting from the combined presence of CCK-8 with either Ins or Glu but it had no effect on CCK-8 in combination with Som. In pancreatic acinar cells from diabetic rat Ins, Glu and Som had no detectable effect on CCK-8-evoked elevation in [Ca2+]i compared with the response obtained with CCK-8 alone. CCK-8-immunopositive cells were distributed around the walls of blood vessels, numerous Ins-positive cells in the central and peripheral parts of the islets of Langerhans, Glu-immunoreactive cells in the periphery of islets and Som-positive cells in the outer part of the islets. During diabetes, the number of CCK-immunopositive cells remained unchanged whereas the number of Ins-positive cells decreased coupled with an increase in the number of Glu-positive cells. The results indicate that both tyrosine kinase and cellular Ca2+ seem to be the intracellular mediators involved with the enhanced secretory responses obtained with a combination of the islet hormones with CCK-8. Moreover, the presence of viable pancreatic islets of Langerhans seems to be associated with the potentiation of the islet hormones with CCK-8.
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PMID:Interaction of islet hormones with cholecystokinin octapeptide-evoked secretory responses in the isolated pancreas of normal and diabetic rats. 1022 72

We developed a group of synthetic analogs of GnRH and Somatostatin to inhibit the tumor growth of different kind. The GnRH analogs decreasing the gonadotroph and steroid hormone levels act on the hormone dependent tumors and influence their growth. One of the most effective antitumor analog was patented under the name FOLLIGEN which inhibited the breast cancer caused by DMBA in rats without any side-effects. Other inhibitory analogs of GnRH with long-lasting effect were effective in the treatment of breast, ovary and prostate tumors. Another analog [alpha-Asp(DEA)]6,Gln8-hGnRH showed a very low endocrine but high antitumor effect in both in vitro and in vivo experiments. Its tritium labeled derivative exhibited specific binding sites on human tumor cell lines. We synthesized the analogs of GnRH-III with effective selective antitumor activity which does not alter the ovarian cycle of rats but inhibits the colony-formation of human breast cancer cell lines and has a significant antiproliferative effect. We also synthesized conjugates of potent GnRH analogs with a branched chain polylysine backbone which induce a 33-35% decrease of cell numbers of MCF-7 and MDA-MB-231 human breast cancer cell lines and 45-50% inhibition of cell proliferation. Another conjugate decreased the tumor growth of MDA-MB-231 xenografts by 80% in a treatment of 9 weeks and even tumor free animals could be found among the ones treated. Using these radiolabeled peptide hormone analogs we found that human tumor cell lines and xenografts specifically bind the GnRH conjugates. We also synthesized a series of Somatostatin analogs which inhibit tyrosine kinases and the growth of several breast, prostate and colon tumor cell lines. One of our best analogs was a heptapeptide, TT-232, which strongly inhibited the tyrosine kinase activity and the cell-proliferation in different colon tumor cells. However, it did not inhibit the growth hormone release either in vitro or in vivo from rat pituitary cells. The TT-232 was found to be effective on 60 human tumor cell lines, it significantly inhibited the tumor growth on different animal tumor models, and induced apoptosis, as a result of which some animals became tumor free. The TT-232 inhibited the tumor growth of PC3 prostate xenografts with 60% and caused a 100% survival of mice 60 days after the transplantation. It is being preclinically tested at present. We have shown that the new GnRH analogs acting without any hormonal effect and the Somatostatin analogs with strong antitumor and tyrosine kinase inhibitory activity but no hormonal effect may represent a breakthrough in the research of the antitumor peptides, having direct effect on tumor cells.
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PMID:Peptides and antitumor activity. Development and investigation of some peptides with antitumor activity. 1086 57

The mitogen activated protein (MAP) kinase cascade represents one of the major regulator of cell growth by hormones and growth factors. However, although the activation of this intracellular pathway has been often regarded as mediator of cell proliferation, in many cell types the increase in MAP kinase (also called extra-cellular signal regulated kinase: ERK) activity may result in cell growth arrest, depending on the length or the intensity of the stimulation. In this review we examine recent data concerning the effects of somatostatin on the MAP kinase cascade through one of its major receptor subtype, the somatostatin receptor 1 (SSTR1), stably expressed in CHO-K1 cells. Somatostatin inhibits the proliferative effects of basic FGF (bFGF) in CHO-SSTR1 cell line. However, in these cells, somatostatin robustly activates the MAP kinase and augments bFGF-induced stimulation of ERK. We show that the activation of ERK via SSTR1 is mediated by the betagamma subunit of a pertussis toxin-sensitive G-protein and requires both the small G protein Ras and the serine/threonine kinase Raf-1. Moreover the phosphatidyl inositol-3kinase and the cytosolic tyrosine kinase c-src participate in the signal transduction regulated by SSTRI to activate ERK, as well as it is involved the protein tyrosine phosphatase (PTP) SHP-2. Previous studies have suggested that somatostatin-stimulated PTP activity mediates the growth inhibitory actions of somatostatin, in CHO-SSTR1 cells. Thus, the activation of SHP-2 by SSTR1 may mediate the antiproliferative activity of somatostatin. SHP-2 may. in turn, regulate the activity of kinases upstream of ERK that require tyrosine dephosphorylation to be activated, such as c-src. Finally, the synergism between somatostatin and bFGF in the activation of ERK results in an increased expression of the cyclin-dependent kinase inhibitor p21cip/WAF1 as molecular effector of the antiproliferative activity of somatostatin.
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PMID:Somatostatin receptor 1 (SSTR1)-mediated inhibition of cell proliferation correlates with the activation of the MAP kinase cascade: role of the phosphotyrosine phosphatase SHP-2. 1108 1

Although the long-lasting effects of neurotrophins have been extensively studied, less data are available on their rapid effects, especially on peptide release. In the present report, we investigated rapid effects of neurotrophins on somatostatin release and on intracellular calcium concentration ([Ca(2+)](i)) in primary cultures of hypothalamic neurons. RT-PCR experiments revealed mRNA expression of the three high-affinity neurotrophin receptors tyrosine kinase (Trk) TrkA, TrkB and TrkC, indicating potential responses to their preferential ligands: nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF) and neurotrophin 3 (NT-3), respectively. We demonstrated that BDNF, and to a lesser extent NT-3, induced significant time- and concentration-dependent somatostatin release, while NGF was devoid of any effect. BDNF or NT-3 induction of somatostatin release was inhibited by the Trk inhibitors K-252a and genistein, whereas K-252b, a less effective inhibitor, had no effect. BDNF- and NT-3-induced somatostatin release depended upon extra- and intracellular Ca(2+) since it was completely abolished in the presence of the Ca(2+) chelators BAPTA (bis-(alpha-aminophenoxy)-ethane-N,N,N',N'-tetraacetic acid) or BAPTA-AM (bis-(alpha-aminophenoxy)-ethane-N,N,N',N'-tetraacetoxymethylester), respectively. In addition, BDNF and NT-3 induced a sustained and rapid increase in [Ca(2+)](i) which depended on the extracellular Ca(2+) concentration. MK-801 (dizocilpine) and tetrodotoxin (TTX) entirely blocked neurotrophin-evoked somatostatin release and [Ca(2+)](i) rise in response to BDNF and NT-3 application in most neurons. Neurotrophin-induced [Ca(2+)](i) rise was completely blocked by K-252a. The present results are consistent with: (1) an indirect effect of neurotrophins on somatostatin release via endogenous glutamate release and subsequent NMDA receptor activation, (2) a major indirect effect of neurotrophins on Ca(2+) rise in hypothalamic neurons which very likely occurs through NMDA receptor activation. Taken altogether, these results indicate that BDNF and NT-3 can rapidly affect the activity of hypothalamic neurons.
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PMID:Rapid stimulatory effects of brain-derived neurotrophic factor and neurotrophin-3 on somatostatin release and intracellular calcium rise in primary hypothalamic cell cultures. 1143 57

Evidence suggests the involvement of growth hormone (GH), insulin-like growth factor I (IGF-I) and somatostatin in the pathology associated with diabetic retinopathy. We examined the effect of IGF-I on human retinal endothelial cell (HREC) survival following high glucose exposure and serum starvation, examined the signalling pathways mediating the protective effect of IGF-I on HREC, and characterized somatostatin receptor-induced retinal endothelial cell death. IGF-I (10 ng/ml) protected HREC from apoptosis induced by high glucose and serum starvation. Wortmannin, a specific inhibitor of phosphotidylinositol-3-kinase, blocks the ability of IGF-I to protect HREC from apoptosis. Incubation of HREC in serum-free medium caused a time-dependent increase in c-Jun N-terminal kinase (JNK) activity, and continuous culture of HREC in the presence of IGF-I or vascular endothelial growth factor (VEGF) prevented JNK activation and arrested apoptosis. Activation of tyrosine kinase receptors results in extracellular signal-related kinase (ERK) activation and activation of ERK is required for proliferation. Both IGF-I and VEGF produced a time- and concentration-dependent increase in the activation of ERK. Type 2 and type 3 somatostatin receptors have been implicated in cell-cycle arrest and apoptosis. Activation of the type 3 receptor in HREC resulted in cell death. These studies suggest that IGF-I is critical for HREC survival, and that somatostatin analogues acting through the type 3 receptor have direct effects on retinal endothelial cells. Furthermore, it appears that the therapeutic efficacy of somatostatin analogues lies not only in systemic inhibition of GH, but also in modulating local growth factor effects.
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PMID:Modulation of retinal endothelial cell behaviour by insulin-like growth factor I and somatostatin analogues: implications for diabetic retinopathy. 1152 89

We investigated the effects of prostaglandin (EP) receptor subtype agonists on DNA synthesis and proliferation in primary cultures of adult rat hepatocytes to elucidate their mechanisms of action. Maintained in short-term cultures (i.e. 3.5 h) in a serum-free, defined medium, hepatocyte parenchymal cells underwent DNA synthesis and proliferation in the presence of sulprostone (10(-6) M), PGE(2) (10(-6) M), and 17-phenyl-trinor-PGE(2) (10(-9) M) in a time- and dose-dependent manner. PGE(2) was less potent than 17-phenyl-trinor-PGE(2) in stimulating hepatocyte mitogenesis. Sulprostone (10(-6) M) and 11-deoxy-PGE(1) (10(-6) M) showed weak and insignificant stimulation, respectively, for hepatocyte mitogenesis. These effects of PGE(2), 17-phenyl-trinor-PGE(2), and sulprostone were abolished by treatment with a specific EP(1) receptor antagonist, SC-51322, or the PLC inhibitor U-73122. The effects of these EP(1) receptor agonists were potentiated by ionomycin and blocked by verapamil. Hepatocyte mitogenesis was almost completely blocked by specific inhibitors of growth-related signal transducers, such as genistein, wortmannin, PD98059, and rapamycin. A monoclonal antibody against TGF-alpha dose-dependently inhibited PGE(2)- and 17-phenyl-trinor-PGE(2)-induced hepatocyte mitogenesis. Treatment with the EP(1) receptor agonists significantly increased the secretion of TGF-alpha, reaching a maximum within 5 min. The increase in TGF-alpha secretion was blocked by SC-51322, U-73122, somatostatin, and verapamil and potentiated by ionomycin. These results indicate that the proliferative mechanisms of action of EP(1) receptor agonists are mediated through an increase in the autocrine secretion of TGF-alpha, which is dependent on the EP(1) receptor/G-protein involved in PLC regulation/PLC/Ca(2+) system. The locally secreted TGF-alpha, in turn, acts as a complete mitogen that stimulates the tyrosine kinase/MAPK pathway in these cells.
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PMID:Prostaglandin E(2) (EP(1)) receptor agonist-induced DNA synthesis and proliferation in primary cultures of adult rat hepatocytes: the involvement of TGF-alpha. 1156 7

Human urotensin II-(1-11) and its N-terminally shortened analogues, human urotensin II-(4-11)-OH and human urotensin II-(4-11)-NH2 are potent vasoconstrictor peptides in isolated rat thoracic aorta. Human urotensin II-induced tonic aorta ring contractions are inhibited by the Ca2+ channel antagonists, verapamil, nitrendipine and diltiazem; D609 (Tricyclodecan-9-yl-xanthogenate, K), selective inhibitor of phosphatidylcholine-specific phospholipase C and partially by phospholipase C inhibitor U-73122 [1-[6-((17ss-3 Methoxyestra-1,3,5(10)-trien-17-yl)amino)hexyl]-1H-pyrrole-25-dione] and a selective inhibitor of phosphatidyl-inositol-specific phospholipase C-ET-18-OCH3 (Edelfosine,1-O-octadecyl-2O-methyl-rac-glycero-3-phosphorylcholine); protein kinase C inhibitors, chelerythrine and NPC-15437 [S-2,6-diamino-N-[[1-(1-oxotridecyl)-2-piperidinyl]methyl]-hexanamide dihydrochloride]; tyrosine kinase inhibitors, genistein and tyrphostin B42 and Rho-kinase inhibitor HA-1077 [1-(5-isoquinolinylsulfonyl)-homopiperazine dihydrochloride]. This indicates that human urotensin II-induced tonic contractions of the rat aorta are mediated by phospholipase C, protein kinase C, tyrosine kinases and Rho-kinase related pathways. In the high K+ medium, human urotensin II induces dose-dependent phasic oscillations of aortic rings. These are inhibited by Ca2+ channel antagonists, the phospholipase C inhibitor, U-73122 and protein kinase C inhibitors, chelerythrine and NPC-15437, indicating that human urotensin II-induced phasic oscillations of the rat aorta are mediated by phospholipase C and protein kinase C-dependent pathways. Given their close structural similarity, several somatostatin analogues, importantly containing DCys5 and DTrp7 and expressing different degrees of somatostatin receptor antagonist activity, were tested for possible inhibitory effects on human urotensin II-induced contractions of the rat aorta rings. Pre-incubation of rat aorta rings in the presence of somatostatin analogues, which are preferentially sst2 specific binders: PRL-2882; PRL-2903 and PRL-2915 at micro-molar concentrations significantly blocked the development of human urotensin II-induced tonic contractions. Somatostatin receptor antagonists dose-dependently inhibited human urotensin II-induced Ca2+ transients in rat thoracic aorta rings. These somatostatin receptor antagonists displayed moderate affinities for recombinant rat and human urotensin II receptor binding sites. The data support the suggestion that urotensin II receptor and somatostatin type 2/5 receptors display similar surface topologies and that analogues of somatostatin could provide useful lead compounds for the development of more potent urotensin II receptor antagonists.
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PMID:Human urotensin II-induced aorta ring contractions are mediated by protein kinase C, tyrosine kinases and Rho-kinase: inhibition by somatostatin receptor antagonists. 1190 7

The putative anti-inflammatory and anti-nociceptive activity of the heptapeptide somatostatin analogue TT-232 ( D-Phe-Cys-Tyr- D-Thr-Lys-Cys-Thr-NH(2)) was investigated in the rat and mouse, as well as its effect on neuropathic hyperalgesia, gastric ulceration and the release of sensory neuropeptides. In the rat, carrageenin-induced paw oedema was inhibited dose dependently by TT-232 (3x2.5-20 microg/kg i.v.). Evans blue accumulation induced by intraarticular bradykinin injection (0.5 nmol in 0.1 ml) was slightly, but significantly inhibited by a single TT-232 dose (5-20 microg/kg). Cutaneous neutrophil accumulation over a 3-h period after intradermal (i.d.) injection of carrageenin (1 mg/site) or interleukin 1beta (IL-1beta, 3 pmol/site) was inhibited significantly by TT-232 (3x80 microg/kg i.v.), while diclofenac (3x10 mg/kg i.v.) elicited significant inhibition only in the IL-1beta test. In the mouse, TT-232 potently decreased oedema formation induced by 2.5% capsaicin applied topically to the ear. Mechano-nociception in the rat hind-paw during neuropathic pain induced by partial sciatic nerve injury (model of Seltzer) was measured using the Randall-Selitto test. TT-232 (5-20 microg/kg i.p. on the 7th day after the operation) dose-dependently inhibited the mechano-nociceptive hyperalgesia. In vitro release of substance P (SP), calcitonin gene-related peptide (CGRP) and somatostatin from the isolated rat trachea in response to electrical field stimulation (40 V, 0.1 ms, 10 Hz, 120 s) of its nervous elements was inhibited significantly by 500 nM TT-232. The role of G protein-coupled receptors in the effect of TT-232 was indicated by the prevention of its inhibitory action on the release of sensory neuropeptides by incubation the tissue for 1 or 6 h with pertussis toxin (100 ng/ml). The release of sensory neuropeptides to in response to electrical nerve stimulation was not inhibited by a potent tyrosine kinase inhibitor, genistein (50 microM). TT-232 (up to 5 mg/kg i.p.) did not induce mucosal lesions in either the stomach or the duodenum. These data suggest that TT-232, a somatostatin analogue devoid of endocrine effects, is a promising lead molecule in the search for novel, broad-spectrum anti-inflammatory and analgesic agents.
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PMID:Pharmacological characterisation of the somatostatin analogue TT-232: effects on neurogenic and non-neurogenic inflammation and neuropathic hyperalgesia. 1212 1

The somatostatin analogue TT-232, containing a five residue ring structure, has a strong antitumour activity both in vitro and in vivo. This peptide has no effect on growth hormone (GH) release, but exhibits a remarkable tyrosine kinase inhibitory effect and induced apoptosis. We studied the effect of TT-232 in different routes of administration and treatment schedules on various types of mouse tumour models. The infusion treatment with inserted Alzet osmotic minipumps proved to be superior to both twice daily subcutaneous (s.c.) or intravenous (i.v.) injections in a 2 weeks period. In the case of S-180 tumour the infusion treatment resulted in 77-100% tumour growth inhibition and in 40-60% of mice long-term and tumour-free survivors. With the P-388sc tumour the infusion of TT-232 resulted in 20-40% of animals long-term and tumour-free survivors and in 76-100% tumour growth inhibition. In the very aggressive Colon-26 (C-26) and MXT, the TT-232 treatment resulted in 71-75% tumour growth inhibition and increased survival time by about 50%.
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PMID:The antitumour effect of the somatostatin analogue TT-232 depends on the treatment regimen. 1267 May 28

The G protein-coupled sst2 somatostatin receptor is a critical negative regulator of cell proliferation. sstII prevents growth factor-induced cell proliferation through activation of the tyrosine phosphatase SHP-1 leading to induction of the cyclin-dependent kinase inhibitor p27Kip1. Here, we investigate the signaling molecules linking sst2 to p27Kip1. In Chinese hamster ovary-DG-44 cells stably expressing sst2 (CHO/sst2), the somatostatin analogue RC-160 transiently stimulates ERK2 activity and potentiates insulin-stimulated ERK2 activity. RC-160 also stimulates ERK2 activity in pancreatic acini isolated from normal mice, which endogenously express sst2, but has no effect in pancreatic acini derived from sst2 knock-out mice. RC-160-induced p27Kip1 up-regulation and inhibition of insulin-dependent cell proliferation are both prevented by pretreatment of CHO/sst2 cells with the MEK1/2 inhibitor PD98059. In addition, using dominant negative mutants, we show that sst2-mediated ERK2 stimulation is dependent on the pertussis toxin-sensitive Gi/o protein, the tyrosine kinase Src, both small G proteins Ras and Rap1, and the MEK kinase B-Raf but is independent of Raf-1. Phosphatidylinositol 3-kinase (PI3K) and both tyrosine phosphatases, SHP-1 and SHP-2, are required upstream of Ras and Rap1. Taken together, our results identify a novel mechanism whereby a Gi/o protein-coupled receptor inhibits cell proliferation by stimulating ERK signaling via a SHP-1-SHP-2-PI3K/Ras-Rap1/B-Raf/MEK pathway.
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PMID:sst2 Somatostatin receptor inhibits cell proliferation through Ras-, Rap1-, and B-Raf-dependent ERK2 activation. 1287 7


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