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)

1 Somatostatin (SRIF) is a cyclic tetradecapeptide present in medium-sized aspiny interneurones in the rat striatum. We have previously shown that exogenous SRIF potently stimulates striatal dopamine (DA) release via a glutamate-dependent mechanism. We now report the ability of the selective sst2 receptor agonist, BIM-23027, to mimic this effect of SRIF. 2 In vivo microdialysis studies were performed in anaesthetized male Wistar rats. In most experiments, compounds were administered by retrodialysis into the striatum for 15 min periods, 90 min and 225 min after sampling commenced, with levels of neurotransmitters being measured by HPLC with electrochemical and fluorescence detection. 3 BIM-23027 (50 and 100 nM) stimulated DA release with extracellular levels increasing by up to 18 fold. 4 Prior retrodialysis of BIM-23027 (50 nM) abolished the effects of subsequent administration of SRIF (100 nM). 5 The agonist effects of both BIM-23027 and SRIF were abolished by the selective sst2 receptor antagonist, L-Tyr8-CYN-154806 (100 nM). 6 The AMPA/kainate receptor antagonist, DNQX (100 microM), abolished the agonist effects of BIM-23027 as previously shown for SRIF. 7 This study provides evidence that the sst2 receptor mediates the potent dopamine-releasing actions observed with SRIF in the rat striatum. Dopamine release evoked by both peptides appears to be mediated indirectly via a glutamatergic pathway. Other subtype-specific somatostatin receptor ligands were unable to elicit any effects and therefore we conclude that no other somatostatin receptor types are involved in mediating the dopamine-releasing actions of SRIF in the striatum.
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PMID:Evidence that somatostatin sst2 receptors mediate striatal dopamine release. 1057 51

The cyclic octapeptide, CYN-154806, inhibited specific [(125)I]-[Tyr(11)]-SRIF binding to CHO-K1 cell membranes expressing human recombinant somatostatin (SRIF) sst(2) receptors (pIC(50) 8. 58) or rat sst(2(a)) and rat sst(2(b)) receptors (pIC(50) 8.35 and 8. 10, respectively). The affinity of CYN-154806 at other human somatostatin receptor types was at least 100 times lower (pIC(50) 5. 41-6.48). In functional studies, CYN-154806 inhibited SRIF-induced increases in extracellular acidification (EAR) in CHO-K1 cells expressing h sst(2) receptors (pK(B) 7.92) but had no effect on UTP-induced increases in EAR. CYN-154806 also blocked SRIF-induced increases [(35)S]-GTPgammaS binding in CHO-K1 cell membranes expressing h sst(2) receptors as well as rat sst(2(a)) and rat sst(2(b)) receptors (pK(B) 7.81, 7.68 and 7.96, respectively). In marked contrast, no blockade was observed at h sst(5) receptors in concentrations as high 10 microM. The antagonistic activity of CYN-154806 was also studied in isolated tissue preparations that are known to express endogenous SRIF receptors. Thus CYN-154806 blocked SRIF, but not DAMGO-induced inhibition of neurogenic contractions in rat isolated vas deferens and guinea-pig ileum (pK(B) 7.79 and 7.49, respectively). CYN-154806 had no effect on SRIF-28 induced inhibition of neurogenic contractions in guinea-pig vas deferens. The results demonstrate that CYN-154806 is a highly potent specific and selective SRIF sst(2) receptor blocking drug. Furthermore, sst(2) receptors mediate SRIF-induced inhibition of neurogenic contractions in rat vas deferens and guinea-pig ileum but not guinea-pig vas deferens which is thought to be mediated by sst(5) receptors.
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PMID:Selective somatostatin sst(2) receptor blockade with the novel cyclic octapeptide, CYN-154806. 1081 60

Western blotting revealed the presence of five somatostatin receptor types, sst1, sst2, sst3, sst4 and sst5, in the mouse pancreatic -cell line MIN-6. In MIN-6 cells, glucose-induced electrical activity was potently (pEC50 = 12.7) and irreversibly reduced by somatostatin (SRIF-14); this was associated with hyperpolarization of the membrane potential (pEC50 = 11.2) and a decrease in the input resistance (pEC50 = 12.7). The effects of SRIF-14 were mimicked by 100 nM L-362,855 (a partial agonist at sst5 receptors), but not BIM-23027 or NNC-26,9100 (selective agonists at sst2 and sst4 receptors, respectively). CH-275 at 100 nM (a selective agonist at sst1 receptors) partially inhibited electrical activity but without membrane potential hyperpolarization. One hundred nanomolar SRIF-28 activated an inwardly rectifying K+ current (ISRIF) ISRIF was activated neither by 1 M BIM-23056 nor CYN-154806 (antagonists at sst5 and sst2 receptors, respectively). The activation of ISRIF by 100 nM SRIF-28 was, however, inhibited 93 % by BIM-23056; CYN-154806 had no effect. Both 100 nM glibenclamide and 200 M tolbutamide, blockers of the -cell ATP-sensitive K+ channel (K-ATP), reduced ISRIF by ~44 %, whereas 1 mM Ba2+ abolished ISRIF. In cell-attached patches, 100 nM SRIF-14 activated two types of single-channel currents whose properties were consistent with those of K-ATP and GIRK channels. In conclusion, somatostatin can inhibit glucose-induced electrical activity in MIN-6 cells by the combined activation of K-ATP and GIRK channels. Studies with selective agonists and antagonists are consistent with this effect being mediated by the sst5 receptor.
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PMID:Somatostatin activates two types of inwardly rectifying K+ channels in MIN-6 cells. 1128 30

Somatostatin (SRIF, somatotropin release inhibiting factor), discovered for its inhibitory action on growth hormone (GH) secretion from pituitary, is an abundant neuropeptide. Two forms, SRIF14 and SRIF28 exist. Recently, a second family of peptides with very similar sequences and features was described; the cortistatins (CST), CST17 and CST29 which are brain selective. The five cloned SRIF receptors (sst1-5) belong to the G-protein coupled/ heptathelical receptor family. Structural and operational features distinguish two classes of receptors; SRIF1 - sst2/sst3/sst5 (high affinity for octreotide or seglitide) and SRIF2 = sst1/sst4(very low affinitty for the aforementioned ligands). The affinity of SRIF receptors for somatostatins and cortistatins is equally high, and it is not clear whether selective receptors do exist for one or the other of the peptides. Several radiologlands label all SRIF receptors, e.g., [125]LTT-SRIF28' [l25I]CGP23996, [125]Tyr10cortistatin or [125I]Tyr11SRIF14. In contrast, [125I]Tyr3octreotide, [125I]BIM23027, [125I]MK678 or [125I]D-Trp8SRIF14 label predominantly SRIF1 sites, especially sst2 and possibly sst5 receptors. In brain, [125I]Tyr3octreotide binding equates with sst2 receptor mRNA distribution. Native SRIF2receptors can be labeled with [125I]SRIF14 in the presence of high NaCl in brain (sst1) or lung (sst4) tissue. Short cyclic or linear peptide analogs show selectivity for sst2/sst5 (octreotide, lanreotide, BIM 23027), sst1 (CH-275), sst3 (sst3-ODN-8), or sst5 receptors (BIM 23268); although claims for selectivity have not always been confirmed. Beta peptides ith affinity for SRIF receptors are also reported. The general lack of SRIF receptor antagonists is unique for peptide receptors, although CYN 154806 is a selective and potent sst2 antagonist. Nonpeptide ligands are still rare, although a number of molecules have been reported with selectivity and potency for sst1 (L 757,519), sst2 (L 779,976), sst3 (L 796,778), sst4 (NNC 26-9100, L 803,087) or sst1/sst5 receptors (L 817,018). Such molecules are essential to establish the role of SRIF receptors, e.g., sst1 in hypothalamic glutamate currents: sst2 in inhibiting release of GH, glucagon, TSH, gastric acid secretion, pain, seizures and tumor growth, and sst5 in vascular remodeling and inhibition of insulin and GH release.
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PMID:Drug design at peptide receptors: somatostatin receptor ligands. 1193 45

Rat pituitary tumor cells (GC cells) exhibit spontaneous oscillations of intracellular free calcium concentration ([Ca(2+)](i)) that allow continuous release of growth hormone (GH). Of the somatostatin (SRIH) receptor subtypes (sst receptors) mediating SRIH action, sst(1) and sst(2) receptors are highly expressed by GC cell membranes. In the present study, the effects of sst(1) or sst(2) receptor activation on single-cell [Ca(2+)](i) were investigated in GC cells by confocal fluorescence microscopy. In addition, the effects of sst(1) or sst(2) receptor activation on GH secretion were also studied. Our results demonstrate that SRIH decreases [Ca(2+)](i) baseline and almost completely blocks Ca(2+) transients through activation of sst(2) but not of sst(1) receptors. In contrast, SRIH effectively inhibits GH secretion through activation of both sst(1) and sst(2) receptors. Blocking Ca(2+) transients is less efficient than SRIH to inhibit GH release. The cyclic octapeptide, CYN-154806, antagonizes sst(2) receptors at [Ca(2+)](i) since it abolishes the sst(2) receptor-mediated inhibition of [Ca(2+)](i) without affecting single-cell Ca(2+) signals. On the other hand, CYN-154806 alone potently inhibits GH secretion through the involvement of pertussis toxin-sensitive G proteins. In conclusion, the present results demonstrate that SRIH inhibition of GH release in GC cells involves mechanisms either dependent or independent on SRIH modulation of [Ca(2+)](i). The implications of CYN-154806 inhibition of GH secretion are discussed.
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PMID:Inhibitory control of growth hormone secretion by somatostatin in rat pituitary GC cells: sst(2) but not sst(1) receptors are coupled to inhibition of single-cell intracellular free calcium concentrations. 1216 71

Somatostatin and its receptors (ssts) are found in the retina. Recent evidence suggested the involvement of sst(2A) and sst(2B) receptors in the regulation of nitric oxide (NO) (). In this study, we investigated further the localization of sst(1), sst(3)-sst(5), and the possible involvement of all subtypes, present in the rat retina, in the regulation of NO production. Polyclonal antibodies raised against sst(1), sst(3-5) were applied to 10-14 micro m cryostat sections of rat retinas fixed in paraformaldehyde. NADPH-diaphorase reactivity was assessed histochemically. The levels of NO in rat retinal explants were assessed by the production of its stable metabolites NO(2)(-) and NO(3)(-). sst(1) immunofluorescence was detected mainly in the retinal pigment epithelium, blood vessels of the inner retina, where it was colocalized with NADPH-diaphorase, and in processes of the inner plexiform layer (IPL). sst(4) immunohistochemistry was found in ganglion cell bodies, where it was colocalized with NADPH-diaphorase, processes of the IPL and ganglion cell layer, and optic nerve fibers. sst(3) or sst(5) immunostain was not detected. Somatostatin increased NO production and this effect was mimicked only by the sst(2) specific analog L-779976. The sst(2) antagonist CYN-154806 blocked the L-779976 increase of NO production. These results present conclusive evidence that somatostatin's role in the retina involves the regulation of NO by an sst(2) mechanism.
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PMID:Somatostatin mediates nitric oxide production by activating sst(2) receptors in the rat retina. 1238 75

In the mammalian retina, somatostatin (SRIF-14) acts through distinct receptor subtypes (sst(1-5)). Among them, sst(2) has been localized to numerous retinal cells, including photoreceptors and rod bipolar cells (RBCs). The specific role of sst(2) in the retina is largely undetermined. In this study, we characterized retinas of mice with targeted deletion of sst(2) (sst(2) KO) and we investigated functions of sst(2) in respect to its possible modulation of glutamate (GLU) release, as measured by HPLC. In contrast with wild-type (WT) mice, sst(2) mRNA and sst(2A) immunoreactivity were no longer detectable in the retina of sst(2) KO mice. In retinal explants of WT mice, SRIF and its analogue octreotide that displays high selectivity for sst(2), similarly reduced the evoked release of GLU without affecting its basal level. In sst(2) KO retinas, SRIF or octreotide did not affect GLU release indicating that they act at sst(2). Unexpectedly, the compound CYN-154806, although introduced as the first potent sst(2) antagonist, reduced the evoked release of GLU with equipotency to SRIF and octreotide. Its inhibitory effect was no longer observed in sst(2) KO retinas, indicating that this substance acts at sst(2) receptors as an agonist. In conclusion, SRIF controls evoked release of GLU through sst(2) receptors and this control may represent part of a mechanism by which SRIF regulates GLU concentration in the retina.
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PMID:Somatostatin inhibits potassium-evoked glutamate release by activation of the sst(2) somatostatin receptor in the mouse retina. 1259 61

The two forms (DTyr8 and LTyr8) of the putative somatostatin sst2 receptor antagonist CYN 154806 (Ac-4NO2-Phe-c(DCys-Tyr-DTrp-Lys-Thr-Cys)-D/LTyr-NH2) were investigated on recombinant human somatostatin receptors and endogenous guinea-pig ileum receptors. In radioligand binding studies using the agonist radioligands [125I]LTT-SRIF-28, [125I][Tyr10]cortistatin-14, [125I]CGP 23996 and [125I][Tyr3]octreotide in Chinese hamster lung fibroblast (CCL39) and Chinese hamster ovary (CHO) cells expressing human somatostatin receptors (hsst1-5), CYN 154806 binds to sst2 receptors with nanomolar affinity (pKD=8.14-8.89), 40- to 4500-fold higher than for sst1, sst3 or sst4. High affinity was also demonstrated for sst5 receptors, particularly for LTyr8CYN 154806 where the sst5 affinity was higher than for sst2 receptors when using [125I]CGP 23996 and [125I][Tyr3]octreotide. Functional properties of the compounds were examined in Chinese hamster ovary (CHO) cells expressing human sst2 receptors, in (1) inhibition of forskolin-stimulated adenylate cyclase, (2) stimulation of serum response element-driven luciferase expression and (3) [35S]guanosine 5'-O-(3-thiotriphosphate) ([35S]GTPS) binding. L- and DTyr8CYN 154806 showed full agonism at inhibition of forskolin-stimulated cAMP accumulation (pEC50=7.73 for both, Emax 104% and 78%, respectively), partial agonism at luciferase expression (pEC50=7.85 and 8.16, Emax=50% and 29%, respectively) and behaved as apparently silent antagonists at [35S]GTPS binding (no agonism observed, pKB=6.88 and 7.50, respectively). The agonist potential was confirmed in isolated guinea-pig ileum preparations via measurement of SRIF-induced inhibition of neurotransmission, where the L-isoform had marked agonism (pEC50=8.23, Emax=32%) whereas the D-isoform was apparently devoid of agonism. The present data suggest that CYN 154806 should be used with caution as an sst2 receptor antagonist tool, since it possesses intrinsic activity at sst2, and high affinity for both sst2 and sst5 receptors. The DTyr form, having lower intrinsic activity, especially in natural tissues, and greater selectivity for sst2 receptors, may be more reliable than LTyr CYN 154806.
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PMID:Functional characterisation of the putative somatostatin sst2 receptor antagonist CYN 154806. 1261 35

1. The mouse corticotroph tumour cell line AtT-20 is a useful model to investigate the physiological role of native somatostatin (SRIF, Somatotropin release inhibitory factor) receptor subtypes (sst(1) - sst(5)). The objective of this study was to characterise the pharmacological features and the functional effects of SRIF receptors expressed by AtT-20 cells using radioligand binding and cAMP accumulation. 2. [(125)I]LTT-SRIF-28, [(125)I]CGP 23996, [(125)I]Tyr(10)-cortistatin-14 and [(125)I]Tyr(3)-octreotide labelled SRIF receptor binding sites with high affinity and in a saturable manner (B(max)=315, 274, 239 and 206 fmol mg(-1), respectively). [(125)I]LTT-SRIF-28 labels significantly more sites than [(125)I]Tyr(10) -cortistatin-14 and [(125)I]Tyr(3) -octreotide as seen previously in cells expressing pure populations of sst(2) or sst(5) receptors. 3. SRIF analogues displaced the binding of the four radioligands. sst(2/5) receptor-selective ligands showed much higher affinity than sst(1/3/4) receptor-selective ligands. The binding profile of [(125)I]Tyr(3)-octreotide was different from that of [(125)I]LTT-SRIF-28, [(125)I]CGP 23996 and [(125)I]Tyr(10)-cortistatin-14. The sst(5/1) receptor-selective ligand L-817,818 identified two binding sites, one with subnanomolar affinity (sst(5) receptors) and one with micromolar affinity (sst(2) receptors); however, the proportions were different: 70 - 80% high affinity with [(125)I]LTT-SRIF-28, [(125)I]CGP 23996, [(125)I]Tyr(10)-cortistatin-14, but only 20% with [(125)I]Tyr(3)-octreotide. 4. SRIF analogues inhibited the forskolin-stimulated cAMP levels depending on concentration. sst(2/5) receptor-selective ligands were highly potent, whereas sst(1/3/4) receptor-selective ligands had no significant effects. The sst(2) receptor antagonist D-Tyr(8)-CYN 154806 competitively antagonised the effects of SRIF-14 and sst(2) receptor-preferring agonists, but not those of L-817,818. 5. The complex binding properties of SRIF receptor analogues indicate that sst(2) and sst(5) receptors are the predominant SRIF receptors expressed on AtT-20 cell membranes with no or only negligible presence of sst(1), sst(3) and sst(4) receptors. In the functional studies using cAMP accumulation, only sst(2) and sst(5) receptors appear to play a role. However, the "predominant" receptor appears to be the sst(2) receptor, although sst(5) receptors can also mediate the effect, when the ligand is not able to activate sst(2) receptors. This clearly adds flexibility to SRIF-mediated functional effects and suggests that the physiological role of SRIF and its analogues may be mediated preferentially via one subtype over another.
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PMID:Pharmacological characterisation of native somatostatin receptors in AtT-20 mouse tumour corticotrophs. 1274 29

Of the five cloned somatostatin (SRIF: somatotropin release inhibitory factor) receptors (sst1-5), only sst2 and sst5 receptors appear to be endogenously expressed and functionally active in AtT-20 mouse anterior pituitary tumour cells. In this study, the presence and the functional coupling of SRIF receptors to G-protein in AtT-20 cells was evaluated by receptor autoradiography and guanosine-5'-Omicron-(3-[35S]thio)-triphosphate ([35S]GTPgammaS) binding, respectively. In addition, transcriptional effects via the serum response element (SRE) were assessed in AtT-20-SRE-luci cells, engineered to express constitutively SRE upstream of the luciferase reporter gene. [125I]LTT-SRIF-28, [125I]CGP 23996 and [125I]Tyr3-octreotide binding illustrates the high level of sst2/5 receptor in AtT-20 cell membranes. SRIF-14 and SRIF-28 produced a concentration-dependent increase in [35S]GTPgammaS binding (pEC50=6.72 and 7.45; Emax=79 and 74.9, respectively) which was completely abolished by pertussis toxin. sst2/5 receptor-selective ligands caused a concentration-dependent increase in [35S]GTPgammaS binding (pEC50=7.74-5.84; Emax=76.6-20.2) while sst1/3/4 receptor-selective ligands were devoid of activity. The binding profiles of [125I]LTT-SRIF-28 and the inhibition of cAMP accumulation correlated highly significantly with their corresponding [35S]GTPgammaS binding profiles (r=0.862 and 0.874, respectively). The effects of the sst2 receptor-preferring agonists Tyr3-octreotide and BIM 23027 on [35S]GTPgammaS binding, but not those of SRIF-14 and the sst5/1 receptor selective-agonist L-817,818, were competitively antagonised by the sst2 receptor antagonist d-Tyr8-CYN 154806 (pKB=7.36 and 7.72, respectively; slope factors not significantly different from unity). In AtT-20-SRE-luci cells, which carry a SRE-luciferase construct functioning in a very efficient manner, SRIF and its analogues did not affect luciferase activity. Taken together, these results demonstrate that in AtT-20 cells the expression of sst2 and sst5 receptors fit with their functional coupling to G(i/o)-proteins. The pharmacological implications of the existence of different ligand/receptor complexes are discussed. However, the intracellular pathways coupled to the activation of sst2 and sst5 receptors appear not to modulate the SRE-mediated transcriptional activity, suggesting that SRIF effects on gene expression coupled to mechanisms that have promoters other than SRE.
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PMID:Native somatostatin sst2 and sst5 receptors functionally coupled to Gi/o-protein, but not to the serum response element in AtT-20 mouse tumour corticotrophs. 1275 Aug 75


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