Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0043167 (pertussis)
 19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of a pertussis toxin sensitive GTP-binding protein in mediating between cholecystokinin receptors and phosphatidylinositol 4,5-bisphosphate phosphodiesterase as well as in preventing cholecystokinin from increasing cellular cyclic AMP has been investigated using dispersed acini from rabbit pancreas. Pertussis toxin pretreatment (500 ng/ml, 2 h) did not affect cholecystokinin(octapeptide) (CCK-8)-induced increases in cytosolic free Ca2+ as judged from changes in fluorescence obtained from quin2-loaded acini. Although pretreatment with pertussis toxin was also without effect on resting acinar cell cyclic AMP levels, adenylate cyclase activity was increased, since inhibition of cyclic AMP phosphodiesterase activity by isobutylmethylxanthine (IBMX) resulted in an additional increase in cyclic AMP levels in toxin-treated acini, indicating that acinar cell adenylate cyclase activity is under some tonic inhibitory control by the pertussis toxin-sensitive inhibitory GTP-binding protein (Gi) of the adenylate cyclase system. CCK-8 gave an increase in cyclic AMP levels in both control (1.6-fold) and toxin-treated (2.3-fold) acini, leading to cyclic AMP levels in the toxin-treated acini 2-times as high as those in control acini. In the presence of IBMX, the cyclic AMP response to CCK-8 was again markedly enhanced in acini pretreated with the toxin (3.2- vs. 1.8-fold), resulting in cAMP levels in the toxin-treated acini 3.7-times those in the absence of IBMX, 2.5-times those in control acini in the presence of IBMX and 7.0-times those in control acini in the absence of IBMX. Neither the pretreatment with pertussis toxin, nor the presence of IBMX alone, nor the combination had an effect on basal amylase secretion. However, all three treatments potentiated the stimulatory effect of CCK-8 on amylase secretion and the amount of potentiation was proportional to the cyclic AMP levels reached. Our findings suggest that in the intact pancreatic acinar cell Gi inhibition of the catalytic subunit of the adenylate cyclase may largely be responsible for preventing cholecystokinin from increasing cellular cyclic AMP. They moreover show that cyclic AMP is a modulatory agent in rabbit pancreatic enzyme secretion, not able to stimulate secretion itself, but potentiating effects mediated by the phosphatidylinositol-calcium pathway.
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PMID:Pertussis toxin stimulates cholecystokinin-induced cyclic AMP formation but is without effect on secretagogue-induced calcium mobilization in exocrine pancreas. 243 69

Stimulation of P2-purinergic receptors by ATP resulted in activation of phosphorylase, which was associated with marked production of inositol trisphosphate (Ins-P3), in rat hepatocytes. ATP also inhibited forskolin-induced accumulation of cAMP in the presence of a phosphodiesterase inhibitor. On the contrary, adenosine or AMP never inhibited the cAMP accumulation, but increased hepatocyte cAMP; the stimulation was antagonized by a methylxanthine. Thus, P1-purinergic receptors are linked to adenylate cyclase in a stimulatory fashion in hepatocytes. Various kinds of purine nucleotides stimulating P2-receptors can be divided into two groups on the basis of their relative abilities to stimulate Ins-P3 production and to inhibit cAMP accumulation; the first group including adenosine 5'-O-(3-thiotriphosphate) (ATP gamma S), ADP, 5-adenylyl imidodiphosphate, GTP, and guanosine 5'-O-(3-thiotriphosphate) has an efficacy similar to that of ATP, and the second group of nucleotides including alpha, beta-methyleneadenosine 5'-triphosphate, beta, gamma-methyleneadenosine 5'-triphosphate (App(CH)2)p), and GDP exerts considerable inhibitory effects on cAMP accumulation, but only slight effects on inositol lipid metabolism. Treatment of hepatocytes with islet-activating protein, pertussis toxin, blocked the nucleotide-induced inhibition of cAMP accumulation, but exerted only a small effect on Ins-P3 production. In membranes prepared from hepatocytes, forskolin-stimulated adenylate cyclase was inhibited by GTP. This GTP-induced inhibition of the enzyme was susceptible to islet-activating protein and dependent on the concentration of ATP (or its derivatives, ATP gamma S or App(CH2)p). It is concluded that there are two types of P2-purinergic receptors: one is linked to adenylate cyclase via an inhibitory guanine nucleotide regulatory protein (Gi) and the other is linked to phospholipase C.
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PMID:P2-purinergic receptors are coupled to two signal transduction systems leading to inhibition of cAMP generation and to production of inositol trisphosphate in rat hepatocytes. 244 92

Using a recently developed canine primary enteric endocrine cell culture system, we have investigated the role of adenosine 3',5'-cyclic monophosphate (cAMP) in mediating the release of neurotensin and enteroglucagon. Epinephrine-stimulated peptide release was concomitant with an increase in cAMP accumulation. Carbachol and somatostatin (SRIF) markedly inhibited the epinephrine effect on both peptide release and cAMP content. The addition of 3-isobutyl-1-methylxanthine potentiated epinephrine-stimulated peptide release without altering the relative inhibition by carbachol and SRIF, suggesting that these agents did not inhibit endocrine cell function by increasing phosphodiesterase activity. To determine the role of cAMP production in mediating inhibition of peptide release, cells were incubated with the bacterial toxin, pertussis toxin (PT). In cultures pretreated with PT, carbachol inhibition of both peptide release and cAMP accumulation was completely reversed. In contrast, SRIF inhibition of cAMP content was completely reversed after PT treatment, but inhibition of peptide release was only partially reversed. Additionally, toxin treatment only partially reversed SRIF inhibition of forskolin- and calcium ionophore-stimulated peptide release. These data suggest that muscarinic cholinergic inhibition of neurotensin and enteroglucagon release is mediated entirely through the guanine nucleotide-binding protein (Ni) or a similar toxin-sensitive, GTP-binding protein. SRIF-inhibited peptide release is mediated partially through a toxin-sensitive substrate, as evidenced by PT reversal of reduced cAMP levels. SRIF may also inhibit neurotensin and enteroglucagon release by a cAMP-independent pathway that is not coupled to Ni or a similar PT-sensitive, GTP-binding protein.
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PMID:Somatostatin and muscarinic inhibition of canine enteric endocrine cells: cellular mechanisms. 244 8

Data presented in this paper indicate that polymorphonuclear leukocyte (PMN) Fc receptor-mediated phagocytosis can be markedly augmented and that this augmentation is under regulatory control. Stimulation of PMN with either a low m.w., heat-labile cytokine(s) (the culture supernatant effluent from a YM-10 Centricon unit, YM-10E), phorbol esters (phorbol dibutyrate), or the polyene antibiotic, amphotericin B, enhances Fc-mediated ingestion in a dose-dependent manner. YM-10 effluent- and amphotericin B-stimulated ingestion is completely abrogated by treating the PMN with either pertussis toxin (PT), cholera toxin (CT), or a monoclonal antibody (mAb), 1C2. However, neither toxin nor mAb 1C2 affects nonstimulated ingestion or phagocytosis stimulated by phorbol esters or synthetic diacylglycerol. Increasing intracellular cyclic adenosine monophosphate levels by stimulation with prostaglandin E1 and the phosphodiesterase inhibitor, isobutylmethylxanthine, does not mimic the effect of either toxin or mAb 1C2. In addition, toxin-mediated inhibition is not due to loss of either the Fc receptor recognized by mAb 3G8 or the antigen recognized by mAb 1C2. These data indicate that both CT and PT regulate the phagocytic response of PMN, in a manner like mAb 1C2, probably by affecting a guanosine 5'-triphosphate-binding protein distinct from those that regulate adenylate cyclase. Since phorbol ester-stimulated ingestion is not inhibited by either PT, CT, or mAb 1C2 and phorbol esters activate protein kinase C directly, phagocytosis amplification regulated by PT, CT, and mAb 1C2 may involve protein kinase C activation.
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PMID:Cholera toxin and pertussis toxin regulate the Fc receptor-mediated phagocytic response of human neutrophils in a manner analogous to regulation by monoclonal antibody 1C2. 244 62

The methylxanthines, such as caffeine and theophylline, are an important and widely used class of drugs, which are believed to mediate many of their physiological effects by increasing intracellular concentrations of cAMP. These agents are known to inhibit phosphodiesterases and to block inhibitory A1 adenosine receptors in a competitive manner. Thus, the methylxanthines may increase cAMP accumulation by slowing its inactivation or by enhancing its production. Using a rat adipocyte membrane model we demonstrate that isobutylmethylxanthine (IBMX) induces a dose-dependent 34% increase in cAMP production above that produced by complete phosphodiesterase inhibition with papaverine. This stimulatory effect is dependent upon the inhibitory guanine nucleotide regulatory protein G1, in that inactivation of Gi by pertussis intoxication ablates IBMX-mediated stimulation of adenylate cyclase activity. Because the Gi-dependent effect of IBMX results in increased cAMP production, the mode of action is likely blockade of Gi activity. Accordingly, the capacity of GTP itself to inhibit adenylate cyclase activity is attenuated by IBMX. In contrast to Gi blockade induced by pertussis toxin, this heretofore unappreciated stimulatory mechanism is completely reversed by inhibitory receptor agonists. This mechanism of action may be responsible for certain physiological effects of methylxanthines, which are not easily explained by phosphodiesterase inhibition or antagonism of A1 adenosine receptors.
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PMID:Isobutylmethylxanthine stimulates adenylate cyclase by blocking the inhibitory regulatory protein, Gi. 245 59

Radioligand binding studies disclosed one class of high affinity atrial natriuretic factor (ANF) receptors on human fibroblast membranes (Kd = 66 pM; maximum number of binding sites [Bmax] = 7,000 sites/cell). ANF increased cellular cyclic guanosine monophosphate (cGMP) content and suppressed isoproterenol- and PGE1-elevated, but not basal, cAMP content. Pertussis toxin pretreatment, which maximally ADP-ribosylated Gi, the guanine nucleotide-binding protein that couples inhibitory receptors to adenylate cyclase and blocks receptor-mediated inhibition of adenylate cyclase, did not interfere with ANF suppression of isoproterenol- or PGE1-elevated cellular cAMP content. Preliminary incubation of fibroblasts with 8-bromo cGMP or phosphodiesterase inhibitors, including 3-isobutyl-1-methylxanthine, Ro 20-1724, and cilostamide, however, prevented the ANF suppression of cAMP. MB 22948, an inhibitor that is partially selective for cGMP phosphodiesterase, did not block the effect of ANF. We conclude that in these cells, unlike other systems, ANF reduces cAMP content by activating a phosphodiesterase rather than by inhibiting adenylate cyclase.
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PMID:Atrial natriuretic factor reduces cyclic adenosine monophosphate content of human fibroblasts by enhancing phosphodiesterase activity. 245 32

We used pertussis toxin to study the mechanism(s) by which divalent cations lower cellular cAMP content in bovine parathyroid cells. In cultured parathyroid cells, high extracellular Ca2+ (5 mM) or Mg2+ (5-10 mM) lowers dopamine-stimulated cAMP content by 70-90%. Pertussis toxin (0.5 microgram/ml) totally blocks the inhibitory effects of Ca2+ and Mg2+ on cAMP content. Ba2+ and Sr2+ (5 mM) also lower cAMP content by 80-90%, and this effect is, likewise, blocked by pertussis toxin. Pretreatment with pertussis toxin had no effect on the release of cAMP into the extracellular fluid. The toxin also did not modify phosphodiesterase activity in sonicates of parathyroid cells (42.68 +/- 3.26 vs. 47.00 +/- 2.82 pmol cAMP hydrolyzed/10(6) cells.20 min in control and toxin-treated cells, respectively). Moreover, addition of the phosphodiesterase inhibitor isobutyl-methylxanthine did not modify the inhibition of dopamine-stimulated cAMP accumulation by 5 mM Ca2+ in control cells (85% vs. 86% inhibition, respectively, with and without isobutylmethylxanthine). Pertussis toxin-catalyzed ADP ribosylation in homogenates of control cells demonstrated the presence of two substrates with mol wt of 40K and 41K. Preexposure of cells to pertussis toxin overnight resulted in the complete loss of both substrates on subsequent ADP ribosylation with [32P]NAD. Pertussis toxin pretreatment did not enhance adenylate cyclase activity indirectly via reducing the extracellular Ca2+-induced rise in cytosolic Ca2+, since the cytosolic Ca2+ level at 5 mM Ca2+ was about 60% higher in pertussis toxin-treated than in control cells (531 +/- 85 vs. 326 +/- 35 nM; P less than 0.05). In addition, ionomycin had no significant effect on cellular cAMP levels in control cells despite increasing the cytosolic Ca2+ concentration to levels as high as 1700 nM at 10(-5) M. Thus, changes in cytosolic Ca2+ phosphodiesterase activity, or efflux of cAMP from the cell cannot explain the inhibition of cAMP accumulation by divalent cations or the reversal of this effect by pertussis toxin. Instead, the present data suggest that extracellular divalent cations modulate the formation of cellular cAMP in parathyroid cells by a process involving a pertussis toxin-sensitive guanine nucleotide regulatory protein, presumably inhibition of adenylate cyclase by Gi via a receptor-like mechanism.
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PMID:Divalent cations suppress 3',5'-adenosine monophosphate accumulation by stimulating a pertussis toxin-sensitive guanine nucleotide-binding protein in cultured bovine parathyroid cells. 246 88

The aim of this study was to establish the mechanism by which adrenalectomy promotes the antilipolytic effect of the adenosine analog (-)-N6-(R-phenyl-isopropyl)adenosine (R-PIA) in rat fat cells. This action of adrenalectomy was not specific for R-PIA, since it was also observed with nicotinic acid and was prevented by phosphodiesterase inhibitors. In contrast, the inhibitory effect of R-PIA and nicotinic acid toward isoproterenol-stimulated cAMP accumulation was unaltered by adrenalectomy regardless of whether phosphodiesterase inhibitors were present. Whatever the conditions used, however, the cAMP levels in adrenalectomized rat adipocytes were one quarter to one third of those in sham-operated rats and remained below the limit over which variations in cAMP had no more influence in lipolysis. Both total and particulate low Km cAMP phosphodiesterase activities per adipocyte were decreased in adrenalectomized rats, but the stimulatory responses of the particulate enzyme to R-PIA remained unchanged. Pertussis toxin-catalyzed ADP ribosylation studies revealed a marked decrease in the total amount of the alpha-subunits of Go and the adenylate cyclase inhibitory regulatory protein Gi after adrenalectomy. However, the inhibitory dose-response curves of adenylate cyclase to R-PIA, nicotinic acid, GTP, guanylylimidodiphosphate, and guanosine 5'-O-(3-thiotriphosphate) were unaltered by adrenalectomy, indicating that the inhibitory function of Gi is unimpaired by adrenalectomy. Lastly, adrenalectomy resulted in a 60% reduction of the Mn2+-stimulated adenylate cyclase activity/adipocyte, which indicates that adrenalectomy causes a defect in adenylate cyclase catalytic activity. Thus, enhanced antilipolytic effects of R-PIA induced by adrenalectomy do not involve increased function of the adenosine receptor Gi-coupled adenylate cyclase inhibitory pathway, but are related to abnormally low intracellular cAMP levels due to defective adenylate cyclase catalytic activity.
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PMID:Role of adenosine 3',5'-monophosphate and the Ri-receptor Gi-coupled adenylate cyclase inhibitory pathway in the mechanism whereby adrenalectomy increases the adenosine antilipolytic effect in rat fat cells. 246 35

The effects of prolactin (PRL), alone and together with human chorionic gonadotropin (hCG), on steroidogenesis and cAMP accumulation in the preovulatory ovary were studied. Cultured granulosa cells obtained from large preovulatory follicles of pregnant mare serum gonadotropin (PMSG)-treated immature rats were used. The results indicated that PRL inhibited, in a dose-dependent manner, hCG-induced cAMP accumulation and 17 beta-estradiol (E2) secretion. When added to 0.4 IU/ml hCG (designated as 100% activity), 1, 10 and 100 ng/ml PRL decreased cAMP accumulation to 86, 64 and 59%, respectively, following 1 h incubation and to 87, 81 and 66% E2 secretion, respectively, following 48 h incubation. PRL alone failed to cause any significant change in cAMP or E2 concentrations. The inhibition of PRL was apparently not at the hCG receptor level, since a similar inhibitory effect was observed in prostaglandin E1 (PGE1)-induced cAMP accumulation. Nor was the inhibitory pathway of adenylate cyclase involved, since pertussis toxin--an inactivator of the Gi regulatory protein--failed to abolish the suppressive effect of PRL on hCG-induced cAMP accumulation. The phosphodiesterase (PDE) inhibitor, 3-isobutyl-1-methyl-xanthine, abolished the inhibitory effect of PRL on hCG- and PGE1-induced cAMP accumulation and on hCG-induced E2 secretion, indicating that PRL might be inhibiting cAMP accumulation and steroidogenesis in preovulatory granulosa cells by enhancement of PDE activity.
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PMID:Prolactin inhibits hCG-stimulated steroidogenesis and cAMP accumulation, possibly by increasing phosphodiesterase activity, in rat granulosa cell cultures. 247 81

Elevation of cyclic AMP (cAMP) content in perfused rat hearts by exposure to glucagon, forskolin, and 1-methyl-3-isobutylxanthine (IBMX) increased rates of protein synthesis during the second hour of perfusion with buffer that contained glucose in the absence of added insulin. When tetrodotoxin was added to arrest contractile activity, glucagon, forskolin, and IBMX still elevated cAMP content and rates of protein synthesis. Perfusion of beating rat hearts at elevated aortic pressure (120 mm Hg vs. 60 mm Hg) also accelerated rates of protein synthesis and raised cAMP content and cAMP-dependent protein kinase activity during the second hour of perfusion. Insulin accelerated rates of protein synthesis in beating hearts during the first and second hour of perfusion but did not increase cAMP content. Elevation of aortic pressure in insulin-treated hearts raised cAMP content but had no further effect on rates of protein synthesis. Perfusion of arrested hearts for as little as 2 minutes at 120 mm Hg resulted in a rapid and sustained increase in cAMP content, cAMP-dependent protein kinase activity, and rate of protein synthesis after 60-120 minutes of additional perfusion at 60 mm Hg. Exposure of arrested hearts to 0.2 mM methacholine, a muscarinic-cholinergic agonist, for 5 minutes before elevation of perfusion pressure blocked the pressure-induced increases in cAMP content, cAMP-dependent protein kinase activity, and rates of protein synthesis. When hearts were removed from pertussis toxin-treated animals, methacholine did not block the effects of forskolin on these same three parameters. These studies indicated that elevation of tissue cAMP by hormone binding, direct activation of adenylate cyclase, or inhibition of phosphodiesterase resulted in acceleration of protein synthesis. Furthermore, the effects of increased aortic pressure to accelerate synthesis appeared to involve a cAMP-dependent mechanism that was independent of changes in contractile activity but could be blocked with a muscarinic-cholinergic agonist. Acceleration of protein synthesis by insulin was not associated with an elevation of cAMP.
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PMID:Increased cyclic AMP content accelerates protein synthesis in rat heart. 247 73


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