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 exploratory study attempted to uncover behavioral and physical outcomes of changes in the peripheral SMS system in the first postnatal week. On postnatal days 1-7, Sprague-Dawley rat pups received daily s.c. injections of Somatostatin (SMS; 8 or 40 micrograms/kg), saline, or CPP-1 (8 or 40 micrograms/kg), a putative SMS receptor antagonist. Physical growth and neurobehavioral development of the pups, assessed on days 3, 6, 9 and 12, were not affected, in 3 separate replications (n = 11/treatment/replication). In contrast, neonatal CPP-1 (40 micrograms/kg) reduced separation distress on day 14, as measured by ultrasonic vocalization and activity. In addition, neonatal SMS (40 micrograms/kg) tended to impair learning on a milk-rewarded Y-maze on days 15-16. These findings support further examination of the potential role of SMS in behavioral development.
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PMID:Behavioral effects of gut hormones in neonatal rats: I. Somatostatin administration during the first postnatal week. 136 40

The effects of somatostatin on the impairment of working memory induced in rats by blockade of hippocampal muscarinic M1 or NMDA receptors were examined, using a three-panel runway task. Both the muscarinic M1 receptor antagonist pirenzepine (1.0 microgram/side) and the competitive NMDA receptor antagonist CPP ((+/-)-3(2-carboxypiperazin-4-yl)-propyl-1-phosphonoic acid) (32 ng/side) significantly increased the number of working memory errors (attempts to pass through two incorrect panels of the three panel-gates at four choice points), when injected bilaterally into the dorsal hippocampus. This effect of intrahippocampal pirenzepine on working memory was alleviated by concurrent injection of 0.32 microgram/side somatostatin. However, concurrent somatostatin (0.1 or 0.32 microgram/side) had no significant effect on the intrahippocampal CPP-induced increase in working memory errors. These results suggest that somatostatin ameliorates the impairment of working memory resulting from hippocampal muscarinic M1 receptor blockade, possibly through activation of cholinergic functions.
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PMID:Somatostatin alleviates impairment of working memory induced by hippocampal muscarinic M1 receptor blockade in rats. 770 59

1. The motor effects of somatostatin-14 (SRIF), and several SRIF peptide analogues were investigated on the rat isolated distal colon. The objective of these studies was to characterize the receptor mediating the contractile action of SRIF by comparing the relative agonist potencies of a range of SRIF analogues. 2. SRIF (1 nM-1 microM) produced concentration-dependent contractions with an EC50 value of approximately 10 nM. Contractile responses induced by SRIF were insensitive to atropine (1 microM) or naloxone (1 microM) but abolished by tetrodotoxin (1 microM). Somatostatin-28 (SRIF28), also induced concentration-dependent contractions and was equipotent with SRIF. Phosphoramidon (1 microM) and amastatin (10 microM) did not increase the potency of either SRIF or SRIF28. 3. The SRIF peptide analogues, octreotide, SRIF25, seglitide, angiopeptin and CGP23996 (1 nM-1 microM) produced contractile responses in the rat distal colon, each having similar potency and maximal activity relative to SRIF. The SSTR2 receptor-selective hexapeptide, BIM23027 (0.1 nM-1 microM), and the SRIF stereoisomer, D-Trp8-SRIF (0.1 nM-1 microM), were the most potent agonists examined being approximately 12 and 7 times more potent than SRIF, respectively. In contrast, the SSTR5 receptor-selective analogue, L362,855, was approximately 120 times weaker than SRIF, whilst the SSTR3 receptor-selective analogue, BIM23056, was inactive at concentrations up to 3 microM. 4. The putative SRIF receptor antagonist, (cyclo(7-aminoheptanoyl Phe-D-Trp-Lys-Thr[Bzl]))(CPP) (1 microM), had no agonist activity and had no effect on contractions induced by SRIF. 5. The contractile actions of BIM23027 and seglitide were subject to pronounced desensitization. Desensitization of preparations by BIM23027 (0.3 JIM) abolished the contractile action of SRIF andSRIF28 but had no effect on contractions produced by acetylcholine (0.1 nM-I1M), suggesting thatBIM23027, SRIF and SRIF28 act via a common receptor mechanism.6. In conclusion, the rat isolated distal colon contracts in response to SRIF and a number of SRIF analogues. Seglitide and octreotide exhibited similar potency and maximal activity relative to SRIF,suggesting that in the rat colon the receptor mediating contraction belongs to the SRIF,-receptor group,of which the recombinant SSTR2, SSTR3 and SSTR5 receptors appear to be subtypes. The high potency of BIM23027, the weak agonist activity of L362,855 and the lack of activity exhibited by BIM23056suggests that the SRIF receptor mediating contraction in the rat distal colon is similar to there combinant SSTR2 receptor.
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PMID:Mediation by SRIF1 receptors of the contractile action of somatostatin in rat isolated distal colon; studies using some novel SRIF analogues. 783 17

1. Somatostatin14 (SS14) inhibits neurogenically mediated contractile responses in guinea-pig ileum and vas deferens and exerts a direct negative inotropic action in guinea-pig spontaneously beating right atrium. In this study, the receptors mediating these inhibitory effects have been characterized by comparing the potencies of several cyclic somatostatin analogues. 2. In the guinea-pig ileum, SS14, somatostatin28 (SS28), somatostatin25 (SS25) and several smaller cyclic somatostatin analogues including octreotide, angiopeptin and CGP 23996, inhibited neurogenically mediated contractile responses, each being of similar potency. 3. In contrast, in the guinea-pig vas deferens and right atrium, SS28 was about 30 times more potent than SS14. However, although angiopeptin was nearly as potent as SS14 as an agonist in the vas deferens, in guinea-pig atrium angiopeptin had low intrinsic activity and antagonized the negative inotropic action of both SS14 and SS28 (pKB values of 7.4 and 7.2, respectively). CGP 23996 was 2-7 times weaker than SS14 in guinea-pig vas deferens and atria. 4. Phosphoramidon (1 microM) and amastatin (10 microM) did not influence the potency of SS14 or SS28 in either the guinea-pig ileum or right atrium. In the guinea-pig vas deferens, phosphoramidon and amastatin did not affect the potency of SS28, but enhanced the potency of SS14 about 5 fold. Despite the presence of phosphoramidon and amastatin, SS28 was still more potent than SS14 in the vas deferens. 5. The putative somatostatin receptor blocking drug, cyclo(7-aminoheptanoyl Phe-D-Trp-Lys-Thr[Brl]) (CPP; 1 microM), did not antagonize the effects of either SS14 or SS28 in ileum, vas deferens or atrial preparations. 6. Somatostatin14 did not modify the contractile action of carbachol or alpha,beta-methylene ATP in the ileum and vas deferens respectively, suggesting that the site of the inhibitory effects on neurogenically mediated contractile responses in both preparations was pre-junctional. Consistent with this conclusion was the observation that the inhibitory effect of SS14 was markedly and inversely related to the external Ca2+concentration. The inhibitory effect of SS14 in guinea-pig atrium was only partly dependent on the external Ca2+ concentration.7. The somatostatin receptors mediating the inhibitory effect of SS14 in the ileum and vas deferens can be distinguished by the differential relative potencies of SS14 and SS28. In the former, SS14 and SS28 have similar potency whilst in the latter SS28 is much more potent. In this respect, the somatostatin receptor mediating negative inotropy in the guinea-pig right atrium appears similar to that identified in the vas deferens.8. We suggest that the somatostatin receptor mediating inhibition of neurogenic contraction in the ileum is similar to the recently cloned SSTR2 receptor. In contrast, the somatostatin receptor mediating negative inotropy in the atrium and inhibition of neurotransmission in the vas deferens appears similar to the SSTR4 receptor which recognises SS28 with higher affinity than SS14.
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PMID:Characterization of somatostatin receptors in guinea-pig isolated ileum, vas deferens and right atrium. 790 41

The prolactin secreting rat pituitary tumor cell line, GH3, expresses high affinity receptors for both vasoactive intestinal peptide (VIP) and somatostatin (SS14). VIP induces prolactin secretion by GH3 cells, an action which is antagonized by SS14. This in vitro model was used to examine the mechanism of action of two synthetic somatostatin analogs, D-Phe-Cys-Phe-D-Trp-Lys-Thr-Cys-Thr-OH (octreotide; SMS 201-995) and cyclo(aminoheptanoyl-Phe-D-Trp-Lys-Thr (benzyl)) (cyclic pentapeptide; CPP). Octreotide and CPP bind to the pituitary somatostatin receptor with lower affinity than does SS14 (KD = 1.3 +/- 1.1; 80 +/- 29; 211 +/- 107 nM for SS14, octreotide and CPP, respectively). SS14 and octreotide were equally effective as inhibitors of VIP-mediated accumulation of cAMP (40% and 45% inhibition, respectively, P < 0.01). SS14 and octreotide also inhibited forskolin-mediated accumulation of cAMP (42% and 40% inhibition of cAMP production, respectively; P < 0.01). The inhibitory action of somatostatin and octreotide on both VIP- and forskolin-mediated cAMP accumulation was blocked by pre-treatment of GH3 cells with pertussis toxin (P < 0.001). Neither SS14 nor octreotide affects the apparent affinity of VIP for its specific receptors on GH3 cells; thus, the inhibitory action of SS14 and octreotide appears to be mediated at the locus of the G-protein-adenylate cyclase complex. In contrast, CPP inhibited VIP-mediated cAMP accumulation slightly, but had no effect on forskolin-mediated cAMP production. Pertussis toxin did not attenuate CPP affects on VIP-mediated cAMP accumulation. However, pre-incubation of GH3 cells with CPP decreased the apparent affinity of receptors for VIP, suggesting that effects of CPP are attributable to interference with VIP binding rather than inhibition at the G-protein-adenylate cyclase complex.
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PMID:Mechanisms of action of long-acting analogs of somatostatin. 809 91

A range of somatostatin (SRIF) analogues have been used to characterize the SRIF receptor-mediating contraction of the human saphenous vein. SRIF produced concentration-dependent contractions with an EC50 value of approximately 20 nM. The peptidase inhibitors phosphoramidon and amastatin did not alter the potency of SRIF. The sst2 receptor-selective peptide BIM-23027 was approximately three times more potent than SRIF in contracting the vein, whereas the sst5 receptor-selective peptide L-362855 was approximately 50 times weaker. The sst3 receptor-selective peptide BIM-23056 did not contract the saphenous vein. Contractions to SRIF were not antagonised by the putative SRIF receptor blocker cyclo(7-aminoheptanoyl-Phe-D Trp-Lys-Thr[Bzl]) (CPP), phentolamine, or indomethacin. Decreasing the external calcium concentration reduced the maximum contraction to SRIF in a concentration-dependent manner without altering the EC50 value. Nifedipine and verapamil also markedly reduced the SRIF-induced contraction. SRIF and several SRIF analogues caused contraction of the human saphenous vein by what appeared to be a direct effect on the smooth muscle. Their relative potencies suggest that their effects were mediated by a somatostatin receptor that is like the recombinant sst2 receptor. The receptor transduction mechanism appears to involve activation of L-type calcium channels and entry of extracellular calcium.
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PMID:Somatostatin-induced contraction of human isolated saphenous vein involves sst2 receptor-mediated activation of L-type calcium channels. 863 86

1. In this study we have examined the effects of nociceptin, an endogenous ligand for the opioid-like receptor ORL1 on the membrane properties of rat locus coeruleus (LC) neurones in vitro, using intracellular and whole cell patch clamp recording. 2. When locus coeruleus neurones were voltage clamped to -60 mV, application to nociceptin caused an outward current in all cells examined (n = 49), with an EC50 of 90 nM. Neither the potency nor the maximal effect of nociceptin was altered in the presence of the peptidase inhibitors, bestatin (20 microM) or thiorphan (2 microM). 3. The outward currents caused by nociceptin in 2.5 mM extracellular K+ reversed polarity at -123 mV, more negative than the predicted K+ reversal potential of -105 mV. Increasing extracellular K+ to 6.5 mM resulted in a shift of the reversal potential of +25 mV, a shift consistent with a K+ conductance. The conductance activated by nociceptin showed mild inward rectification. 4. Application of a high concentration of nociceptin (3 microM) occluded the current produced by simultaneous application of high concentrations of Met-enkephalin (10 microM), (3 microM) somatostatin and UK 14304 (3 microM), indicating that nociceptin activated the same conductance as mu-opioid and somatostatin receptors and alpha 2-adrenoceptors. 5. The actions of nociceptin were weakly antagonized by the opioid antagonist, naloxone, with pKb's estimated from 2 cells of -4.23 and -4.33. The mu-opioid antagonist, CTAP (D-Phe-Cys-Tyr-D-Trp-Arg-Pen-Thr-NH2, 1 microM), the opioid antagonist, nalorphine (30 microM) or the somatostatin antagonist, CPP (cyclo(7-aminoheptanoyl-Phe-D-Trp-Lys-Thr[Bz1]) 3 microM) did not affect the nociceptin-induced current. 6. Dynorphin A (microM), another putative endogenous ligand for ORL1, caused a robust outward current in locus coeruleus neurones that was, however, completely antagonized by moderate concentrations of naloxone (300 nM-1 microM). 7. Continuous application of nociceptin (3 microM) resulted in a decrease of the outward current to a steady level of 70% of the maximum response with a t1/2 of 120s. Desensitization was largely homologous because simultaneous application of Met-enkephalin (30 microM) during the desensitized period of the nociceptin response resulted in an outward current that was 92% of control responses to Met-enkephalin in the same cells. Conversely, continuous application of Met-enkephalin (30 microM) resulted in a decrease of Met-enkephalin current to a steady level that was 54% of the initial current. During this desensitized period application of nociceptin (3 microM) resulted in a current that was 78% of the control responses to nociceptin in the same cells. 8. Thus nociceptin potently activates an inwardly rectifying K+ conductance in locus coeruleus neurones, with a pharmacological profile consistent with activation of the ORL1 receptor. Dynorphin A does not appear to be a ligand for ORL1 in rat locus coeruleus neurones.
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PMID:Nociceptin receptor coupling to a potassium conductance in rat locus coeruleus neurones in vitro. 898 9

Somatostatin is synthesized and released by aspiny interneurons of the neostriatum. This work investigates the actions of somatostatin on rat neostriatal neurons of medium size (ca. 6 pF). Somatostatin (1 microM) reduces both calcium action potentials (20 mM tetraethylammonium) by ca. 24% and calcium currents by ca. 35%, in all cells tested. This action was produced in the presence of tetrodotoxin and in dissociated cells and was blocked by cyclo(-7-aminoheptanoyl-phe-d-try-lys-O-benzyl-thr) acetate (CPP-1), a somatostatin receptor antagonist. Except for nitrendipine (5 microM), several calcium channel antagonists, 1 microM omega-conotoxin GVIA, 400 nM omega-agatoxin TK, and 1 microM omega-conotoxin MVIIC, partially occluded somatostatin action. According to the calcium channel types known to be blocked by these antagonists, P/Q-type channels appeared to be the channels mainly modulated by somatostatin, followed by N-type channels. Since these channel types generate the afterhyperpolarizing potential in spiny neurons, we investigated the action of somatostatin on this event. Somatostatin reduces the amplitude of the afterhyperpolarizing potential by ca. 39%. This action is occluded by omega-agatoxin TK and omega-conotoxin MVIIC but not by omega-conotoxin GVIA or nicardipine. Thus, the action of somatostatin on the afterhyperpolarizing potential is mainly mediated by P/Q-type calcium channels. The block of the slow afterhyperpolarizing potential made most neurons exhibit an irregular firing mode, suggesting that ion currents other than calcium may also be affected by somatostatin. We conclude that somatostatin exerts a direct postsynaptic effect on neostriatal neurons via the activation of somatostatin receptors. This action affects non-L-type calcium channels and therefore modifies the afterhyperpolarizing potential and the firing pattern. It is proposed that somatostatin and its analogues may have profound effects on the motor functions controlled by the basal ganglia.
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PMID:Somatostatin modulates Ca2+ currents in neostriatal neurons. 1182 66