UNIPROT:P61278 - FACTA Search

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)

Propranolol, a beta adrenergic blocking drug, is known to inhibit the thyrotropin (TSH) stimulation of adenosine-3',5'-monophosphate (cyclic AMP production in thyroid membranes but the mechansim of this inhibitory action is known. We have therefore investigated the influence of propranolol on the binding of 125I-labelled TSH to human thyroid membranes. Both d- and l-propranolol were found to enhance the binding of 125I-labelled TSH to thyroid membranes. The amount of label bound increased from about 30% in the absence of propranolol to about 60% in the presence of 3.3 x 10(-3)M propranolol. Scatchard analysis of the binding data indicated that propranolol increased the association constant of the thyrotropin-thyrotropin receptor interaction. Practolol, lithium carbonate, methimazole, and somatostatin had no effect on thyrotropin binding. This effect of propranolol appeared to be due to a direct reversible action of propranolol on the thyroid membranes and could be attributed to the membrane-disrupting properties of the drug rather than its beta-blocking activity. The increased TSH receptor occupancy which resulted from the increased association constant of the TSH-thyroid membrane interaction corresponded with a decrease in TSH-stimulated cyclic AMP formation. These data could indicate that propranolol reduced the efficiency of the receptor-adenylyl cyclase coupling system.
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PMID:The influence of propranolol on the thyrotropin receptor. 18 96

Somatostatin inhibits basal and chlorpromazine stimulated adenylyl cyclase activity in homogenates of GH1 rat pituitary tumor cells. The Dtryp8-Dcys14 analogue is more potent than tyrosyl somatostatin as an inhibitor of both basal and chlorpromazine-stimulated adenylyl cyclase. Somatostatin had no effect on sodium fluoride or quanylyl-imidodiphosphate-stimulated cyclase in GH1 cell homogenates or on basal, epinephrine or prostaglandin E1 stimulated cyclase activity in sonicated BHK fibroblasts. These results indicate a specific effect of somatostatin to inhibit pituitary adenylyl cyclase activity.
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PMID:Inhibition of GH1 rat pituitary tumor cell adenylyl cyclase activity by somatostatin. 74 97

NG108-15 neuroblastoma x glioma hybrid cells and S49 lymphoma cells exhibit an enhancement in adenylyl cyclase activity after chronic treatment with receptor agonists that acutely inhibit the enzyme. Using agonists that activate five distinct inhibitory receptors in NG108-15 cells, we have found that there is a correlation between the extent of acute inhibition of prostaglandin E1 (PGE1)-stimulated cAMP accumulation and efficacy for induction of enhanced PGE1 stimulation of cAMP accumulation after chronic treatment and withdrawal. Chronic treatment with dideoxyadenosine, which acutely inhibits adenylyl cyclase activity by a mechanism independent or cell surface receptors or pertussis toxin-sensitive G proteins, did not induce enhanced PGE1 stimulation of cAMP accumulation in NG108-15 cells or forskolin stimulation of cAMP accumulation in S49 cells. While control basal cAMP concentrations were acutely decreased by carbachol in NG108-15 cells and by somatostatin in S49 cells, when the cAMP concentrations were maintained above the control basal values with a phosphodiesterase inhibitor, chronic treatment with these inhibitory drugs nonetheless resulted in enhanced cAMP responses in both NG108-15 and S49 cells. These results provide evidence that the initial decrement in cAMP concentrations caused by inhibitory drug is not the requisite signal for inducing the subsequent sensitization of adenylyl cyclase in NG108-15 and S49 cells but that activation of a pertussis toxin-sensitive G protein is involved in the development of this important adaptation.
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PMID:Adaptive increase in adenylyl cyclase activity in NG108-15 and S49 cells induced by chronic treatment with inhibitory drugs is not due to a decrease in cyclic AMP concentrations. 132 99

We previously reported the cloning of two distinct somatostatin receptor (SSTR) subtypes, SSTR1 and SSTR2. Although both SSTR1 and SSTR2 bound somatostatin specifically and with high affinity, neither was coupled to adenylyl cyclase, a major cellular effector of somatostatin's actions. Here we report the cloning and functional characterization of a third member of the SSTR family. Human SSTR3 is a protein of 418 amino acids and has 45% and 46% identity with human SSTR1 and SSTR2, respectively. RNA blotting studies showed that SSTR3 mRNA could be readily detected in brain and pancreatic islets. The pharmacological properties of human SSTR3 were characterized by transiently expressing the human SSTR3 gene in COS-1 cells. Membranes from cells expressing human SSTR3 bound the somatostatin agonist [125I]CGP 23996 specifically and with high affinity, with a rank order of potency of somatostatin-28 = CGP 23996 > somatostatin-14 > SMS-201-995. Studies using cells transiently coexpressing the human dopamine D1 receptor and human SSTR3 showed that somatostatin was able to inhibit dopamine-stimulated cAMP formation in a dose-dependent manner, indicating that SSTR3 was functionally coupled to adenylyl cyclase. These results indicate that the diverse biological effects of somatostatin are mediated by a family of receptor with distinct, but overlapping, tissue distributions, unique pharmacological properties, and potentially different functions.
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PMID:Somatostatin receptors, an expanding gene family: cloning and functional characterization of human SSTR3, a protein coupled to adenylyl cyclase. 133 45

Subtypes of somatostatin (SRIF) receptors are expressed in the rat brain and may mediate the diverse actions of SRIF. In the present study we show that subtypes of SRIF receptors in different regions of the rat brain are differentially sensitive to the cyclic hexapeptide SRIF analog, MK 678. SRIF1 receptors are sensitive to MK 678 and found in high density in the cortex, hippocampus and striatum, as well as in the anterior pituitary. The pituitary appears to express only the SRIF1 receptor. The cortex, hippocampus and striatum also express SRIF2, or MK 678-insensitive, receptors. The proportion of SRIF1 receptors varies in different brain regions. In the cortex and hippocampus, SRIF1 receptors comprise approximately 50% of the total SRIF receptor population, whereas in the striatum SRIF1 receptors comprise the majority (86%) of SRIF receptors. SRIF1 receptors in the pituitary, cortex and hippocampus mediate, at least in part, the ability of SRIF to inhibit forskolin-stimulated adenylyl cyclase activity as MK 678 produced significant inhibition of activity in these tissues. However, in the striatum, MK 678 had no significant effect on forskolin-stimulated adenylyl cyclase activity, despite a significant inhibition produced by SRIF. The specific labeling of these receptors in the striatum by [125I]MK 678 is abolished in the presence of high concentrations of the nonhydrolyzable GTP analog, GTP gamma S, suggesting that SRIF1 receptors in this brain region are coupled to G proteins. The SRIF1 receptors in the striatum may be coupled via G proteins to cellular transducing systems other than adenylyl cyclase.
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PMID:Differential coupling of somatostatin1 receptors to adenylyl cyclase in the rat striatum vs. the pituitary and other regions of the rat brain. 134 48

Somatostatin (SRIF) receptors are coupled to the catalytic subunit of adenylyl cyclase via pertussis toxin-sensitive guanine nucleotide-binding regulatory proteins (G proteins). To identify which G proteins link SRIF receptors to adenylyl cyclase, G(o) alpha, Gi alpha, and its different subtypes were individually blocked in AtT-20 cell membranes with G alpha subtype-selective antisera. Antiserum directed against the carboxyl-terminal region of Gi alpha blocked SRIF inhibition of forskolin-stimulated adenylyl cyclase activity, and this effect was prevented by the peptide to which the antiserum was generated. However, antiserum directed against the carboxyl-terminal region of G(o) alpha did not affect SRIF inhibition of adenylyl cyclase activity, indicating that Gi alpha couples SRIF receptors to adenylyl cyclase but G(o) alpha does not. Peptide-directed antisera against Gi alpha 1 completely blocked SRIF inhibition of adenylyl cyclase activity. In contrast, antisera directed against either Gi alpha 2 or Gi alpha 3 did not affect the actions of SRIF. The results of these studies indicate that Gi alpha 1 selectively couples SRIF receptors to the catalytic subunit of adenylyl cyclase in AtT-20 cell membranes. Because previous studies have shown that SRIF receptors are able to couple to Gi alpha 1, Gi alpha 3, and G(o) alpha, the results suggest that different G proteins may specify the coupling of SRIF receptors to distinct cellular effector systems.
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PMID:Gi alpha 1 selectively couples somatostatin receptors to adenylyl cyclase in pituitary-derived AtT-20 cells. 134 39

The effects of a range of neurotransmitter agonists showing selectivity for receptor types inhibitorily coupled to adenylyl cyclase were compared in membrane preparations of hippocampus, frontal cortex and caudate nucleus/striatum from previously frozen post-mortem human and rat brain. Agonists were tested against basal and forskolin stimulated activities, forskolin being a potent activator of the catalytic sub-unit of the enzyme. Of those agonists tested, only somatostatin (100 microM) and neuropeptide Y (10 microM) gave consistent inhibitions of basal and forskolin stimulated enzyme activities in all three regions of both human and rat brain. Somatostatin-mediated inhibition of human brain adenylyl cyclase was reduced in the absence of GTP and in the presence of the guanine nucleotide partial agonist, guanosine 5'-O-thiodiposphate, consistent with a G-protein-linked receptor. No such GTP-dependence was found for the neuropeptide Y-mediated adenylyl cyclase inhibition. GTP-dependent somatostatin mediated inhibitions of human brain adenylyl cyclase activity were of highest magnitude in the thalamus, intermediate magnitude in the hippocampus and caudate nucleus and lowest magnitude in the frontal cortex. It is concluded that of a range of neurotransmitter receptor agonists tested, only somatostatin gives robust, GTP-dependent responses that are reproducible enough to be used with post-mortem tissue for the comparison of receptor function in human brain disorders.
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PMID:Neurotransmitter-mediated inhibition of post-mortem human brain adenylyl cyclase. 134 19

The dual (stimulatory and inhibitory) regulation of adenylyl cyclase was studied in syncytiotrophoblast basal membranes prepared from term human placenta. Stimulation of adenylyl cyclase activity with GTP, non-hydrolyzable GTP analogs, isoproterenol and PGE1 was observed, confirming the presence of an intact stimulatory pathway in these membranes. Investigations of the inhibitory pathway revealed tight coupling of the G-protein, Gi alpha, to catalytic adenylyl cyclase, with high doses of GTP producing 80 per cent inhibition of GTP/forskolin-stimulated activity. Confirming Gi alpha involvement, pertussis toxin (PTX) treatment of basal membranes augmented the responses of adenylyl cyclase to both GTP and forskolin. In addition, immunoblotting of basal membrane proteins revealed the presence of the G-protein subunits, Gs alpha, Gi alpha, and G beta/gamma. The response of adenylyl cyclase was measured to a series of agonists known to inhibit adenylyl cyclase in other tissues, however a reproducible inhibitory effect was produced only by somatostatin (approximately 80 per cent). Treatment of basal membranes with PTX caused a degree of reversal of the somatostatin-mediated adenylyl cyclase inhibition. However, the intoxication was insufficient to restore GTP/forskolin-stimulated activity.
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PMID:Dual regulation of human syncytial adenylyl cyclase. 135 75

Previous studies have shown that at least two subtypes of somatostatin (SRIF) receptors (SRIF1 and SRIF2) are expressed in mammalian cells. SRIF1 receptors have high affinity for MK 678, whereas SRIF2 receptors have no affinity for MK 678 but selectively bind peptides with structures similar to that of CGP 23996. Recently, two SRIF receptor genes have been cloned from human and mouse genomic libraries. In the present study, the pharmacological properties of these two cloned SRIF receptors, expressed in Chinese hamster ovary (CHO) cells, were investigated, to determine whether they have any similarity to the previously described SRIF1 and SRIF2 receptor subtypes. Both cloned receptors could be labeled with 125I-Tyr11-SRIF and exhibited high affinity for SRIF. The SSTR1 receptor could also bind CGP 23996-like compounds but not MK 678. In contrast, the SSTR2 receptor was insensitive to CGP 23996-like compounds but bound MK 678 with high affinity. These findings indicate that the peptide specificities of the cloned SSTR1 and SSTR2 receptors differ from each other. Pretreatment of CHO cells expressing the two cloned SRIF receptors with SRIF abolished high affinity agonist binding to the cloned SSTR2 receptor but not the cloned SSTR1 receptor. Agonist binding to SSTR1 receptors was not significantly affected by guanosine-5'-)-(3-thiotriphosphate) or pertussis toxin pretreatment, whereas agonist binding to SSTR2 receptors was inhibited by both treatments. These findings suggest that SSTR2 receptors can be regulated and they associate with pertussis toxin-sensitive guanine nucleotide-binding proteins, whereas SSTR1 receptors do not. SRIF is a potent inhibitor of adenylyl cyclase activity in mammalian cells. However, neither the cloned SSTR2 nor SSTR1 receptor mediated SRIF inhibition of adenylyl cyclase activity in stably transformed CHO cells or COS-1 cells transiently expressing the cloned receptors, suggesting that neither cloned receptor couples to adenylyl cyclase. The results of these studies indicate that the two cloned SRIF receptors have different pharmacological properties. The characteristics of the cloned SSTR2 receptor are similar to those of the previously described SRIF1 receptor, and the characteristics of the cloned SSTR1 receptor are similar to those of the previously described SRIF2 receptor.
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PMID:Pharmacological properties of two cloned somatostatin receptors. 135 50

Thyroliberin (TRH), vasoactive intestinal peptide (VIP) and somatostatin (SRIF) act through receptors that are coupled to guanine nucleotide-binding regulatory proteins (G proteins). Regulation of hormone action may occur at the level of G protein coupling to the receptor or effector systems. In this study we demonstrate that prolonged exposure (for up to 48 hr) of cultured rat pituitary adenoma GH3 cells to these hormones caused homologous and to some extent heterologous attenuation of the adenylyl cyclase (AC) (EC 4.6.1.1) responsiveness. In addition, TRH and SRIF diminished both TRH- and guanosine 5'-[beta gamma-imido]-triphosphate-enhanced phospholipase C (PLC) (EC 3.1.4.3) activity within the same time-course. Measurements of cells membrane levels of Gs protein alpha-subunit (Gs alpha), G(i)-1 alpha/G(i)-2 alpha, G(i)-3 alpha, G(o) alpha and G beta by immunoblotting were performed. TRH and VIP upregulated levels of all G proteins except G(o) alpha and G beta. In contrast, SRIF caused a marked reduction of G beta levels. Thus, TRH and VIP, both acting through Gs, both modulated the alpha-subunit levels of this signal transducer, whereas SRIF, which possibly acts through G(i)-2, did not change the steady state level of G(i)-2 alpha. The actions of TRH, VIP and SRIF are multifaceted at the G protein level, where modulations of subtypes not directly involved in their actions may occur. These findings emphasize the complexity expected to be found in the in vivo situation.
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PMID:Hypothalamic hormones modulate G protein levels and second messenger responsiveness in GH3 rat pituitary tumour cells. 135 62

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