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)

Eleven cases of thyroid lymphoma were studied by the immunoperoxidase avidin-biotin technique with calcitonin and somatostatin rabbit antisera. In 6 cases of non-Hodgkin lymphoma, in thyroid tissue residual to the lymphomatous infiltration, the C cell density was markedly increased and clustering was often observed; the C cells often took part in the follicular lining, frequently with polar distribution; these elements displayed a strong positivity for calcitonin, while the number of somatostatin-containing cells was lower and the staining less intense. In the only case of Hodgkin's lymphoma of the thyroid gland the staining was negative; in other 4 cases of non-Hodgkin lymphoma no residual thyroid tissue was found and the staining was also negative. As Hashimoto's thyroiditis is often associated with thyroid lymphoma, 13 cases of Hashimoto's thyroiditis were also studied; no C cells were observed and both stainings were negative. These data show that an increase in the C cell number may be a hallmark of thyroid lymphoma and that hyperplastic C cells show an intensive positivity for calcitonin. On the other hand, C cell hyperplasia is not present in Hashimoto's thyroiditis, in spite of the close association with thyroid lymphoma. Furthermore, we provide evidence that somatostatin-containing cells are present both in normal thyroid glands and in thyroid lymphoma.
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PMID:Distribution of calcitonin- and somatostatin-containing cells in thyroid lymphoma and in Hashimoto's thyroiditis. 256 76

The phorbol ester 12-O-tetradecanoyl-phorbol 13-acetate (TPA) and thyroliberin exerted additive stimulatory effects on prolactin release and synthesis in rat adenoma GH4C1 pituicytes in culture. Both TPA and thyroliberin activated the adenylate cyclase in broken cell membranes. When combined, the secretagogues displayed additive effects. TPA did not alter the time course (time lag) of adenylate cyclase activation by hormones, guanosine 5'-[beta,gamma-imino]triphosphate or forskolin, nor did it affect the enzyme's apparent affinity (basal, 7.2 mM; thyroliberin-enhanced, 2.2 mM) for free Mg2+. The TPA-mediated adenylate cyclase activation was entirely dependent on exogenously added guanosine triphosphate. ED50 (dose yielding half-maximal activation) was 60 microM. Access to free Ca2+ was necessary to express TPA activation of the enzyme, however, the presence of calmodulin was not mandatory. TPA-stimulated adenylate cyclase activity was abolished by the biologically inactive phorbol ester, 4 alpha-phorbol didecanoate, by the protein kinase C inhibitor polymyxin B and by pertussis toxin, while thyroliberin-sensitive adenylate cyclase remained unaffected. Experimental conditions known to translocate protein kinase C to the plasma membrane and without inducing adenylate cyclase desensitization, increased both basal and thyroliberin-stimulated enzyme activities, while absolute TPA-enhanced adenylate cyclase was maintained. Association of extracted GTP-binding inhibitory protein, Gi, from S49 cyc- murine lymphoma cells with GH4C1 cell membranes yielded a reduction of basal and hormone-stimulated adenylate cyclase activities, while net inhibition of the cyclase of somatostatin was dramatically enhanced. However, TPA restored completely basal and hormone-elicited adenylate cyclase activities in the Gi-enriched membranes. Finally, TPA completely abolished the somatostatin-induced inhibition of adenylate cyclase in both hybrid and non-hybrid membranes. These data suggest that, in GH4C1 cells, protein kinase C stimulation by phorbol esters completely inactivates the n alpha i subunit of the inhibitory GTP-binding protein, leaving the n beta subunit functionally intact. It can also be inferred that thyroliberin conveys its main effect on the adenylate cyclase through activation of the stimulatory GTP-binding protein, Gs.
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PMID:Protein kinase C stimulates adenylate cyclase activity in prolactin-secreting rat adenoma (GH4C1) pituicytes by inactivating the inhibitory GTP-binding protein Gi. 256 96

Activation of beta-adrenergic and somatostatin receptors increases and attenuates, respectively, cAMP. We have determined, however, that in enteric endocrine cells beta-adrenergic and somatostatin receptors also regulate Na-H exchange activity, independent of their effects on cAMP. In cells loaded with a pH-sensitive dye, epinephrine, acting at a beta 2-adrenergic receptor induced an alkalinization while somatostatin caused an acidification of intracellular pH (pHi). These pHi changes were dependent on extracellular Na+ and inhibited by amiloride. Forskolin, dibutyryl-cAMP and 8-bromo-cAMP, however, had no effect on pHi. Cholera toxin, while decreasing the EC50 for epinephrine-stimulated increases in cAMP, had no effect on epinephrine-induced alkalinization, suggesting receptor coupling to Na-H exchange was not mediated by a cholera toxin-sensitive stimulatory GTP-binding protein (Gs). Additionally, epinephrine stimulated Na-H exchange in cyc- variants of S49 lymphoma cells, which lack a fundamental Gs. In the presence of pertussis toxin, somatostatin attenuation of cAMP was completely reversed; however, somatostatin inhibition of Na-H exchange was not affected. We suggest that beta-adrenergic and somatostatin receptors regulate Na-H exchange independent of changes in cAMP and possibly independent of GTP-binding proteins previously described as being coupled to these receptors.
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PMID:Beta-adrenergic and somatostatin receptors regulate Na-H exchange independent of cAMP. 257 75

beta-Adrenergic receptors on membranes prepared from L6 myoblasts, wild-type S49 lymphoma cells, and an adenylate cyclase-deficient variant (cyc-) of S49 lymphoma cells bind the agonist [3H]hydroxybenzylisoproterenol ([3H]HBI) with high affinity. In each case the agonist [3H]HBI is associated with a larger complex than is the antagonist [125I]iodopindolol, and the binding of [3H]HBI can be inhibited by GTP. These observations suggest that there is an agonist-dependent association of the receptor with a guanine nucleotide-binding protein. The goal of the present experiments was to investigate the possibility that an interaction of beta-adrenergic receptors with the inhibitory guanine nucleotide-binding protein of adenylate cyclase was responsible for these observations. Treatment of S49 cells with pertussis toxin decreased the extent of pertussis toxin-catalyzed [32P]ADP-ribosylation of a 41,000-dalton protein, measured in vitro, and decreased the inhibition of adenylate cyclase activity observed in the presence of somatostatin or analogues of GTP. Isoproterenol-stimulated adenylate cyclase activity was potentiated following treatment of wild-type S49 cells and L6 myoblasts with pertussis toxin. Although the ability of receptors on membranes prepared from L6 myoblasts to bind the agonist [3H]HBI was not affected by treatment of cells with pertussis toxin, treatment of cyc- S49 cells with pertussis toxin markedly decreased the ability of receptors to bind [3H]HBI. The observed inhibition of the binding of the agonist [3H]HBI to beta-adrenergic receptors on membranes prepared from cyc- S49 cells after treatment with pertussis toxin could be explained by an interaction between beta-adrenergic receptors and the inhibitory guanine nucleotide-binding protein. Such an interaction may represent a mechanism through which stimulation of the activity of adenylate cyclase by beta-adrenergic receptors can be regulated or through which beta-adrenergic receptors can affect the activity of cyclic AMP-independent cellular processes.
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PMID:Interaction of beta-adrenergic receptors with the inhibitory guanine nucleotide-binding protein of adenylate cyclase in membranes prepared from cyc- S49 lymphoma cells. 284 25

Addition of 12-O-tetradecanoylphorbol-13-acetate (TPA) to S49 lymphoma cells (wild type and a cyclic AMP-dependent protein kinase-lacking clone) has little effect alone but doubles accumulation of cyclic AMP in response to isoproterenol. The effect is immediate and has an apparent affinity and order of potency characteristic of the activation of protein kinase C by phorbol esters. Enhancement does not reflect an altered time course of the beta-adrenergic response, enhanced affinity of the cellular beta-receptor for agonist, or decreased degradation and export of cellular cyclic AMP. Reduction of the beta-adrenergic response by somatostatin does not remove the effect of TPA nor does TPA abolish the effect of somatostatin. Phorbol ester enhances cyclic AMP accumulation in response to cholera toxin in wild type and UNC clones but not in H21a or cyc-. TPA also enhances cAMP accumulation in response to forskolin in wild type cells. The effect of TPA is stable to rapid preparation of membranes. In adenylate cyclase assays on membranes from cells treated with TPA, the activation by guanosine 5'-(beta, gamma-imino)triphosphate is enhanced by 40% with no change in lag time; the effect of beta-agonist plus Gpp(NH)p is similarly enhanced; activation by Mn2+ is unchanged. We conclude that phorbol ester facilitates the productive interaction of the alpha subunit of the transducer protein Gs with the catalytic unit of adenylate cyclase, hypothetically via an action of protein kinase C.
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PMID:Enhancement of adenylate cyclase activity in S49 lymphoma cells by phorbol esters. Putative effect of C kinase on alpha s-GTP-catalytic subunit interaction. 285 14

The beta-adrenergic receptor kinase is a cytosolic enzyme that specifically phosphorylates the agonist-occupied form of the beta-adrenergic receptor (beta AR). Beta AR kinase appears to be translocated from the cytosol to the plasma membrane when kin- S49 lymphoma cells are incubated with either beta-adrenergic agonists or prostaglandin E1, both of which act through receptors which stimulate adenylate cyclase. We report here that brief (approximately 20 min) exposure of wild type S49 lymphoma cells to somatostatin (which inhibits adenylate cyclase) promotes the translocation of beta AR kinase to an extent comparable to that observed in the presence of the beta agonist isoproterenol or prostaglandin E1. Beta AR kinase activity can be measured using either beta AR or rhodopsin, the retinal receptor for light, as a substrate. The translocation process triggered by somatostatin is rapid, reversible, and is associated with somatostatin receptor desensitization. The latter is apparent as an attenuation of the inhibition by somatostatin of forskolin-stimulated adenylate cyclase activity in membranes of S49 cells preincubated in the presence of the peptide. These results strongly suggest that beta AR kinase is able to phosphorylate and desensitize both stimulatory and inhibitory adenylate cyclase-coupled receptors, thus emerging as a general kinase that regulates the function of different receptors in an agonist-specific fashion.
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PMID:Somatostatin induces translocation of the beta-adrenergic receptor kinase and desensitizes somatostatin receptors in S49 lymphoma cells. 288 86

We have examined several features of the regulation of cyclic AMP accumulation in lymphoid cells isolated from peripheral blood of human subjects and in the murine T-lymphoma cell line, S49, S49 cells are unique because of the availability of variant clones with lesions in the pathway of cyclic AMP generation and response. We found that human lymphoid cells prepared at 4 degrees C showed substantially greater cyclic AMP accumulation in response to histamine and the beta-adrenergic agonist isoproterenol than did cells prepared at ambient temperature. The muscarinic cholinergic agonist carbamylcholine and peptide hormone somatostatin failed to inhibit cyclic AMP accumulation in human lymphoid cells and treatment with pertussis toxin (which blocks function of Gi, the guanine nucleotide binding protein that mediates inhibition of adenylate cyclase) only minimally increased cyclic AMP levels in these cells. Thus the Gi component of adenylate cyclase appears to play only a small role in modulating cyclic AMP levels in this mixed population of lymphoid cells. Incubation of whole blood with isoproterenol desensitized human lymphocytes to subsequent stimulation with beta agonist. This desensitization was associated with a redistribution of beta-adrenergic receptors such that a substantial portion of the receptors in intact cells could no longer bind a hydrophilic antagonist. Wild-type S49 lymphoma cells showed a similar redistribution of beta-adrenergic receptors after a few minutes' incubation with agonist. Based on studies in S49 variants, this redistribution is independent of components distal to receptors in the adenylate cyclase/cyclic AMP pathway. By contrast, a more slowly developing, agonist-mediated down-regulation of beta-adrenergic receptors was blunted in variants with defective interaction between receptors and Gs, the guanine nucleotide binding protein that mediates stimulation of adenylate cyclase. Unlike results in human lymphoid cells, S49 cells show a prominent inhibition of cyclic AMP accumulation mediated by Gi; this inhibition is promoted by somatostatin and blocked by pertussis toxin. Inhibition by Gi is unable to account for the marked decrease in ability of the diterpene forskolin to maximally stimulate adenylate cyclase in S49 variants having defective Gs. These results emphasize that both Gs and Gi component are important in modulating cyclic AMP accumulation and receptors linked to adenylate cyclase in S49 lymphoma cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation of cyclic AMP accumulation in lymphoid cells. 299 40

Human platelet membrane proteins were phosphorylated by exogenous, partially purified Ca2+-activated phospholipid-dependent protein kinase (protein kinase C). The phosphorylation of one of the major substrates for protein kinase C (Mr = 41 000) was specifically suppressed by the beta subunit of the inhibitory guanine-nucleotide-binding regulatory component (Gi, Ni) of adenylate cyclase. The free alpha subunit of Gi (Mr = 41 000) also served as an excellent substrate for the kinase (greater than 0.5 mol phosphate incorporated per mol of subunit), but the Gi oligomer (alpha X beta X gamma) did not. Treatment of cyc- S49 lymphoma cells, which are deficient in Gs/Ns (the stimulatory component) but contain functional Gi/Ni, with the phorbol ester, 12-O-tetradecanoylphorbol 13-acetate, a potent activator of protein kinase C, did not alter stimulation of adenylate cyclase catalytic activity by forskolin, whereas the Gi/Ni-mediated inhibition of the cyclase by the hormone, somatostatin, was impaired in these membranes. The results suggest that the alpha subunit of the inhibitory guanine-nucleotide-binding regulatory component of adenylate cyclase may be a physiological substrate for protein kinase C and that the function of the component in transducing inhibitory hormonal signals to adenylate cyclase is altered by its phosphorylation.
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PMID:Protein kinase C phosphorylates the inhibitory guanine-nucleotide-binding regulatory component and apparently suppresses its function in hormonal inhibition of adenylate cyclase. 316 29

The cyc- variants of S49 lymphoma cells have served as powerful tools for studying the components and mechanisms of hormone-induced adenylate cyclase stimulation, as these cells are deficient in the guanine nucleotide regulatory site (Ns) mediating hormone, guanine nucleotide, cholera toxin and fluoride-induced stimulations of the enzyme. Because of this deficiency, membranes of these cells have been used for reconstitution of the system by inserting the coupling component derived from other cell types. The hormone-sensitive adenylate cyclase is not only stimulated by hormones but can also be inhibited by a wide variety of hormones and neurotransmitters, and there is some evidence that hormonal inhibition may be mediated by a distinct guanine nucleotide regulatory site. Studies in cyc- cells lacking a functional Ns may therefore answer this unresolved, important question. We have recently observed that stable GTP analogues can inhibit cyc- adenylate cyclase stimulated by purified, preactivated Ns or forskolin, which can activate adenylate cyclase even in the absence of a functional Ns (ref. 10). The data indicated that these Ns-deficient cells contain an inhibitory guanine nucleotide site, Ni. To strengthen this concept, we investigated whether the cyc- adenylate cyclase can be inhibited by a hormone. We report here that somatostatin decreases cyclic AMP levels in cyc- cells, inhibits the forskolin-stimulated adenylate cyclase and causes a concomitant increase in a high affinity GTPase activity in cyc- membranes. The data strongly suggest that both the hormone- and guanine nucleotide-induced adenylate cyclase inhibitions in cyc- cells are mediated by Ni and that the mechanisms of activation and inactivation of Ni are similar to those established for Ns.
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PMID:A nucleotide regulatory site for somatostatin inhibition of adenylate cyclase in S49 lymphoma cells. 613 20

cyc--Variants of S49 lymphoma cells are defective in the stimulatory guanine nucleotide site of the adenylate cyclase but contain an inhibitory site. Treatment of cyc- cells with islet-activating protein (IAP), which causes ADP-ribosylation of an Mr 40 000 polypeptide in cyc- membranes, abolishes adenylate cyclase inhibition by GTP and the peptide hormone, somatostatin, but not that induced by GTP gamma S. Furthermore, somatostatin-induced stimulation of GTP hydrolysis is lost. Thus, the data indicate that IAP interferes with the adenylate cyclase system by an action at the inhibitory guanine nucleotide site.
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PMID:Adenylate cyclase inhibition and GTPase stimulation by somatostatin in S49 lymphoma cyc- variants are prevented by islet-activating protein. 613 42


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