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Query: UMLS:C0043167 (pertussis)
 19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

By employing early-passaged rabbit kidney epithelial cells in tissue culture, we demonstrated that angiotensin II (AII) has unique mechanisms of signal transduction. First, unlike its action in other target tissues, micromolar concentrations of AII are required to induce small rises in cytosolic calcium, [Ca2+]i, an action which is not accompanied by the release of inositol phosphates (IP). In contrast, nanomolar bradykinin (BK) mobilizes [Ca2+]i through activation of phospholipase C and release of IP. Neither of these stimulated calcium responses exhibits pertussis toxin (PTx) sensitivity. Secondly, AII and BK at 10(-9) to 10(-7) M stimulate cAMP indirectly through PGE2 production in distal cells. AII- and BK-stimulated PGE2 release is PTx inhibitible, suggestive of the presence of a GTP binding protein mediating the response. By contrast, arginine vasopressin fails to elicit rises in [Ca2+]i but exerts its primary effect on cAMP production in distal cells via direct coupling to a stimulatory GTP binding protein, as evidenced by uncoupling with cholera toxin. Regulation of PGE2 synthesis appears to occur via phospholipase A2, not C, by all three peptides.
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PMID:Relationship between phospholipase C activation and prostaglandin E2 and cyclic adenosine monophosphate production in rabbit tubular epithelial cells. Effects of angiotensin, bradykinin, and arginine vasopressin. 244 59

We evaluated the role of GTP-binding proteins in the activation of phospholipase C, release of arachidonic acid, and synthesis of prostaglandin (PG) E2 in response to platelet-activating factor (PAF) and angiotensin II (ANG II) in cultured rat mesangial cells. Pretreatment with pertussis toxin (PT) decreased PGE2 formation and arachidonic acid release in response to PAF and ANG II but not that to A 23187. PT pretreatment also inhibited formation of inositol trisphosphate (IP3) in response to ANG II or PAF but did not significantly alter the rise in intracellular calcium detected by fura-2. PT catalyzed ADP ribosylation of two proteins of molecular mass approximately 40 and 41 kDa. Further evidence for involvement of GTP-binding protein in phospholipase C activation was that GTP-gamma S stimulated IP3 generation. Immunoblots with antibodies directed against different inhibitory alpha subunits of GTP-binding proteins showed that the major 40-kDa PT substrate reacted with an antibody directed against a decapeptide of the G protein subunit alpha i2 that is also found in leukocytes. This was further confirmed by Northern blot that showed the existence of mRNA in mesangial cells that hybridized with a cDNA probe for G alpha i2. In addition lesser amounts of mRNA hybridized with a restriction fragment cDNA probe for G alpha i3, which corresponds to the 41-kDa substrate for PT ribosylation. These results show that phospholipase C activation by PAF and ANG II in mesangial cells involves a specific G protein, most likely G alpha i2.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Relationship of GTP-binding proteins, phospholipase C, and PGE2 synthesis in rat glomerular mesangial cells. 249 60

The present study and the previous report (6) show that the cyclooxygenase path is a primary route of metabolism of arachidonic acid in FRTL-5 rat thyroid cells. The production of PGD2 and PGE2 is an active process in intact cells treated with complete medium including TSH, insulin and 5% calf serum. In contrast, PGF2 alpha and HHT are probably nonenzymatic degradation products of an unstable intermediate, PGH2, since the two compounds are produced and occupy a significant proportion of the cyclooxygenase metabolites only in the homogenate system; this is true in other cells. Although the production of prostaglandins involves three steps, i.e. the release of free arachidonic acid, the production of PGH2 by PGH synthase (cyclooxygenase) and the conversion of PGH2 to various prostaglandins by specific isomerases or synthetases, the first step, the release of free arachidonic acid, has been, until recently, believed to be the sole step important for the regulation of prostaglandin synthesis. This presumption rested on the following observations. Only the free form of arachidonic acid is converted to prostaglandins and the intracellular free arachidonic acid pool is very small compared to the esterified form in phospholipids. The size of the free arachidonic acid pool is regulated by the balance between release from phospholipids by phospholipases and reacylation into phospholipids. When resting cells are stimulated, the release of arachidonic acid and the production of prostaglandins increase concomitantly. The present study shows, however, that all three steps of prostaglandin synthesis are under regulatory control in FRTL-5 rat thyroid cells and that the control is a complex process involving TSH, insulin/IGF-I, and serum. The first step is primarily under the control of TSH. TSH increases the synthesis of arachidonic acid and also, like norepinephrine (5, 6) induces the release of arachidonic acid from the cell by a mechanism involving a pertussis toxin-sensitive G protein. Regulation of the second step can be estimated by measuring cyclooxygenase activity. The present report shows that TSH increases cyclooxygenase activity, presumably by increasing gene expression, but that the TSH effect on cyclooxygenase activity requires insulin/IGF-I or serum. This result is similar to studies showing the effect of TSH and insulin/IGF-I on glycosaminoglycan synthesis, thyroglobulin synthesis, and growth in FRTL-5 thyroid cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The arachidonic acid signal system in the thyroid: regulation by thyrotropin and insulin/IGF-I. 251 71

Prostaglandin E (PGE) receptor is coupled to a pertussis toxin-insensitive GTP-binding protein in bovine adrenal medulla, but PGE receptor partially purified from bovine adrenal medulla was functionally reconstituted with Gi into phospholipid vesicles (Negishi, M., Ito, S., Yokohama, H., Hayashi, H., Katada, T., Ui, M., and Hayaishi, O. (1988) J. Biol. Chem. 263, 6893-6900). We demonstrate here that PGE2 inhibited forskolin-induced accumulation of cAMP in cultured bovine chromaffin cells. In plasma membranes prepared from bovine adrenal medulla, PGE2 inhibited forskolin-stimulated adenylate cyclase activity in a GTP-dependent manner. This inhibitory action of PGE2 was abolished by treatment of the membrane with pertussis toxin. Reconstitution of the membranes ADP-ribosylated by pertussis toxin with Gi purified from bovine brain restored the potency of PGE2 to inhibit the adenylate cyclase activity. Inhibition of forskolin-induced cAMP accumulation by PGE2 was also abolished by exposure to the toxin in the cells, indicating that PGE receptors are coupled to Gi. In contrast, PGE2 stimulated the formation of inositol phosphates in chromaffin cells, but this effect was not affected by treatment of the cells with pertussis toxin, suggesting that the PGE receptors are coupled to phosphoinositide metabolism via a pertussis toxin-insensitive G-protein. Both the inhibitory action of cAMP accumulation and stimulation of phosphoinositide metabolism were specific for PGE1 and PGE2, and the Scatchard plot analysis of PGE2 binding to the membrane showed a single high-affinity binding site (Kd = 2 nM). In bovine adrenal chromaffin cells PGE2 enhanced catecholamine release in the presence of ouabain by stimulation of phosphoinositide metabolism (Yokohama, H., Tanaka, T., Ito, S., Negishi, M., Hayashi, H., and Hayaishi, O. (1988) J. Biol. Chem. 263, 1119-1122). We further examined the modulation of catecholamine release by PGE2 through its inhibitory coupling to the adenylate cyclase system. Prior exposure of chromaffin cells to forskolin or dibutyryl-cAMP reduced nicotine-stimulated catecholamine release, and PGE2 attenuated forskolin-induced inhibition of catecholamine release stimulated by nicotine, but not dibutyryl-cAMP-induced inhibition. In the absence of evidence that PGE receptor subtypes exist, these results suggest that the PGE receptor is coupled to two signal transduction systems leading to inhibition of cAMP accumulation via Gi and to production of inositol phosphates via a pertussis toxin-insensitive G-protein, both of which may modulate catecholamine release from bovine chromaffin cells.
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PMID:Prostaglandin E receptors in bovine adrenal medulla are coupled to adenylate cyclase via Gi and to phosphoinositide metabolism in a pertussis toxin-insensitive manner. 253 96

E-series prostaglandins (PGs) inhibit glucagon-stimulated cyclic AMP accumulation in hepatocytes as well as glucagon-stimulated glycogenolysis and fatty acid oxidation. The present study was designed to test the hypothesis that this inhibition occurs via interactions with a plasma membrane PGE2 receptor coupled to adenylate cyclase. PGE2 receptors in rat liver plasma membranes were examined using competitive binding studies [( 3H]PGE2 vs. PGE1). Binding data were analyzed to determine the number of apparent binding sites and the PGE dissociation constant (Kd) at each site. Rat liver plasma membranes contained two classes of binding sites with Kd values of 9.9 X 10(-10) and 8 X 10(-9) M. Addition of the GTP-analog guanyl-5'-6'-imidodiphosphate (0.1 mM) altered the PGE2 binding such that a single class of sites with low affinity (Kd = 4 X 10(-9) M) was observed. Similarly, liver plasma membranes isolated from rats pretreated with pertussis toxin contained only a single class of PGE2 binding sites in the absence of guanyl-5'-6'-imidodiphosphate (Kd = 3.4 X 10(-9) M). PGE2 (10(-10) M) inhibited liver membrane adenylate cyclase activity stimulated by forskolin (by 57%) and glucagon (by 24%). This inhibition was not observed in membranes isolated from rats treated with pertussis toxin. Thus, the present studies demonstrate that PGE binding to its hepatic receptors is regulated by a pertussis toxin sensitive guanine nucleotide binding protein coupled to inhibition of adenylate cyclase.
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PMID:Coupling of hepatic prostaglandin receptors to adenylate cyclase through a pertussis toxin sensitive guanine nucleotide regulatory protein. 253 66

Human Il-1 alpha induces the synthesis of kappa Ig L chains by the pre-B cell line 7OZ/3, IL-2R alpha by the human NK cell line YT, and PGE2 by human rheumatoid synovial cells. Pertussis toxin (PT) markedly inhibited all three IL-1-induced activation events. The inhibition by PT was associated with a decrease in IL-1-mediated cAMP production. PT also inhibited IL-1-stimulated cAMP production in crude membrane fractions from 7OZ/3, YT, and 3T3 fibroblasts. In addition, IL-1 stimulated GTPase activity present in the membranes IL-1-responsive cells. Furthermore, the IL-1-induced GTPase activity was sensitive to PT. PT induced the ADP-ribosylation of a 46-kDa substrate in membrane preparations from IL-1-responsive cells. Cholera toxin also induced the ADP-ribosylation of a 46-kDa substrate in the same membrane preparations. The present findings indicate that the IL-1R is linked to a PT-sensitive G protein that stimulates the activity of adenylate cyclase.
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PMID:Signal transduction pathway for IL-1. Involvement of a pertussis toxin-sensitive GTP-binding protein in the activation of adenylate cyclase. 254 9

alpha 2-Adrenoceptor agonists inhibit glucose-stimulated insulin release and glucose utilization in pancreatic islets. In isolated pancreatic islets of the rat, the Ca2+ channel agonists CGP-28392 and BAY-K-8644 increased insulin release in the presence of clonidine. Neither CGP-28392 nor BAY-K-8644 antagonized the effect of clonidine on glucose utilization. The Ca2+ ionophore, ionomycin, also did not affect glucose utilization in the presence or absence of clonidine. Glucagon partly reversed the effects of clonidine on insulin release, and it potentiated glucose-stimulated insulin release in the absence of clonidine. Glucagon reversed the effects of clonidine on glucose utilization. Amiloride antagonized the effects of clonidine on insulin secretion but did not enhance markedly glucose utilization in the presence or absence of clonidine. Carbamylcholine and arecoline reversed the effects of clonidine on glucose utilization and partly reversed the effects on insulin release in the absence of extracellular Ca2+. Prostaglandin (PG) E2, but not PGF2 alpha, inhibited glucose utilization in a time- and concentration-dependent manner. PGE2 also inhibited glucose-stimulated insulin release. Pertussis toxin blocked both actions of PGE2. The cyclooxygenase inhibitor indomethacin did not affect insulin release or glucose utilization in the presence of clonidine. Thus, elevated intracellular Ca2+ levels antagonize the effects of clonidine on insulin release, whereas other mediators appear to be required to alter glucose utilization.
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PMID:Calcium mobilization, prostaglandin E2 and alpha 2-adrenoceptor modulation of glucose utilization and insulin secretion in pancreatic islets. 254 83

In order to analyze the complex activities of histamine H2 receptor activation on neutrophils, human HL-60 promyelocytic leukemia cells were differentiated into neutrophils by incubation with dimethyl sufoxide, loaded with the Ca2+-sensitive indicator dyes, indo-1 or fura-2, and the levels of intracellular Ca2+ ([Ca2+]i) measured in a fluorescent-activated cell sorter and fluorimeter, respectively. Histamine increased [Ca2+]i in a dose-dependent manner with a half-maximal concentration (EC50) of approximately 10(-6) to 10(-5) M, which exhibited H2 receptor specificity. Prostaglandin E2 and isoproterenol also induced [Ca2+]i mobilization in HL-60 cells, whereas the cell permeable form of cAMP and forskolin failed to increase [Ca2+]i. Since H2-receptor mediated [Ca2+]i mobilization was not inhibited by reducing the concentration of extracellular Ca2+ nor by the addition of Ca2+ channel antagonists, LaCl3 and nifedipine, [Ca2+]i mobilization is due to the release of Ca2+ from intracellular stores. Furthermore, both 10(-4) M histamine and 10(-6) M fMet-Leu-Phe increased the levels of 1,4,5-inositol trisphosphate. However, histamine-induced mobilization of [Ca2+]i was inhibited by cholera toxin but not by pertussis toxin, whereas the action of fMet-Leu-Phe was inhibited by pertussis toxin but not by cholera toxin. These data suggest that H2 receptors on HL-60 cells are coupled to two different cholera toxin-sensitive G-proteins and activate adenylate cyclase and phospholipase C simultaneously.
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PMID:Multiple signaling pathways of histamine H2 receptors. Identification of an H2 receptor-dependent Ca2+ mobilization pathway in human HL-60 promyelocytic leukemia cells. 255 5

Chondroprogenitor cells, derived from avian tibia epiphyseal growth plate, were cultured in vitro. Incubation of these cells with pertussis toxin augmented their cAMP response to parathyroid hormone (PTH), attenuated the response to forskolin, but did not modify the response to PGE2. Pertussis toxin modulation of the cAMP response was accompanied by ADP ribosylation of two proteins with molecular weights of 39 and 40 kD. Using specific antibodies, the 39 kD protein was identified as the inhibitory guanine nucleotide binding protein (Gi) of the adenylate cyclase system. The other ADP-ribosylated protein has not been identified. Preincubation of the chondroprogenitor cells with PTH or PGE2 resulted in time-dependent heterologous desensitization of the cAMP response to a second challenge of either hormone. The cells did not recover from the densitization for at least 18 h after removal of the hormones. PTH and PGE2 treatment did not affect the cAMP response to forskolin and cholera toxin. The PTH-dependent cAMP production was also not altered by forskolin treatment. PTH homologous desensitization was not affected by pertussis toxin treatment, but the heterologous desensitization due to PGE2 was significantly attenuated. These results suggest that exposure of chondroprogenitor cells to PTH and PGE2 results in heterologous desensitization of the cAMP response. The desensitization is not due to changes in the adenylate cyclase activity. The pertussis toxin-sensitive G proteins are involved in the PTH heterologous rather than homologous desensitization of the cAMP response.
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PMID:Modulation of responsiveness of the adenylate cyclase system in avian chondroprogenitor cells by pertussis toxin, PTH, and PGE2. 255 89

Both NaCl and NaF promoted PGE2 binding to epididymal adipocyte membranes by apparent increase in the binding affinity. In order to distinguish between the effect of fluoride and the 'salt effect' of sodium on PGE2 binding, the effects of Mg2+ and guanyl nucleotides on PGE2 binding in the presence of NaCl or NaF were compared. Mg2+ decreased PGE2 binding; high NaF concentration abolished this inhibition, while increased NaCl concentrations did not affect the Mg2+ inhibition. In the presence of Mg2+ the effects of NaCl and NaF were additive. The enhancement of PGE2 binding by fluoride, unlike sodium, was dependent on the presence of Mg2+. Incubation of the membranes with GDP beta S, Gpp(NH)p, GTP or GTP gamma S increased PGE2 binding. Gradual increase in NaF concentrations in the presence of guanyl nucleotides resulted in stimulation of PGE2 binding at low NaF concentrations and inhibition of PGE2 binding at high NaF concentrations. No changes in the stimulatory action of NaCl on PGE2 binding were observed in the simultaneous presence of NaCl and guanyl nucleotides. A biphasic effect on PGE2 binding was observed with a wide concentration range of guanyl nucleotides. Treatment of the isolated membranes with cholera or pertussis toxins stimulated the adenylyl cyclase activity of the membranes, but failed to influence PGE2 binding. The implications of these findings are discussed.
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PMID:Biphasic effect of sodium fluoride and guanyl nucleotides on binding to prostaglandin E2 receptors in rat epididymal adipocyte membranes. 256 48


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