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

Granulocyte-macrophage colony-stimulating factor (GM-CSF) is a hematopoietic cytokine which produces diverse biological effects in target cells of myeloid origin. GM-CSF enhances the production of superoxide anion (O2-) by mature neutrophils in response to chemotactic peptides such as formyl-methionyl-leucyl-phenylalanine (fMLP), but alone it has no effect on this system. This process has been termed "priming." fMLP activates neutrophils via a pertussis toxin-sensitive GTP-binding protein, leading to the rapid production of the second messengers diacylglycerol (DAG) and inositol trisphosphate, via phosphatidylinositol turnover, and arachidonic acid (AA) by a presumptive phospholipase A2-mediated mechanism. All three second messengers may lead to the generation of O2-. We investigated the effect of priming of GM-CSF on these systems. GM-CSF had no effect on fMLP-stimulated DAG and inositol trisphosphate levels, nor did it amplify the response to exogenously added phorbol ester (to mimic the action of DAG) or calcium ionophore. Neutrophils primed with the cytokine showed a small, but significant, enhancement of fMLP-stimulated AA release. Compared with unprimed controls, primed neutrophils also showed a significant increase in O2- production when stimulated with either AA or the nonhydrolyzable GTP analogue, GTP-gamma-S. The magnitude of enhanced O2- production was similar to that observed after fMLP treatment of primed cells. All of these effects, including the increased sensitivity to AA treatment, were inhibited by pertussis toxin. These data show that GM-CSF primes neutrophils by modulating the activity of at least one pertussis toxin-sensitive G protein coupled to a metabolic pathway that mobilizes and utilizes arachidonic acid.
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PMID:Granulocyte-macrophage colony-stimulating factor primes neutrophils by activating a pertussis toxin-sensitive G protein not associated with phosphatidylinositol turnover. 254 84

Bradykinin inhibits vasopressin-stimulated water transport in cortical collecting tubular cells. The biochemical mechanism of this effect was explored by means of primary cultures of rabbit cortical collecting tubular cells. Bradykinin was found to produce a rapid release of calcium from intracellular stores, an increase in sn-1,2-diacylglycerol levels, and a fivefold increase in membrane-bound protein kinase C activity, consistent with stimulation of phospholipase C and activation of protein kinase C in rabbit cortical collecting tubular cells. In addition, bradykinin produced a dose-dependent 46% inhibition of vasopressin-stimulated adenosine 3',5'-cyclic monophosphate (cAMP) formation. Pretreatment with the protein kinase C inhibitors, H-7 and staurosporine, reversed the bradykinin-mediated inhibition of vasopressin-stimulated cAMP accumulation. In contrast, pretreatment with either the phospholipase A2 inhibitor, mepacrine, or pertussis toxin did not prevent the inhibitory effect of bradykinin on vasopressin-stimulated cAMP production, suggesting that the effects are not mediated by prostaglandin E2 or activation of a pertussis-toxin sensitive guanine nucleotide regulatory protein (e.g., Gi). Because bradykinin also inhibits isoproterenol-stimulated cAMP formation but does not inhibit either basal-, forskolin-, or cholera toxin-stimulated cAMP accumulation, the site of this inhibition appears to involve the hormone receptor or coupling of the receptor to the stimulatory guanine nucleotide regulatory subunit (Gs). The results demonstrate that bradykinin stimulates phospholipase C leading to activation of protein kinase C, which then inhibits vasopressin-stimulated cAMP production at the level of the hormone receptor or coupling of the receptor to Gs in cultured cortical collecting tubular cells.
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PMID:Bradykinin activates protein kinase C in cultured cortical collecting tubular cells. 255 39

Angiogenin stimulates capillary and umbilical vein endothelial cell prostacyclin secretion but not that of prostaglandins of the E series. The response was quantitated by radioimmunoassay and by [3H]arachidonate labeling followed by analysis of the secreted prostaglandins. The stimulated secretion lasts for several minutes and is optimal at 2-4 min. The dose-response (peak at 1-10 ng/ml) is similar to that previously observed for activation of endothelial cell phospholipase C. Stimulated secretion was blocked by pretreatment with the inhibitors of prostacyclin synthesis, indomethacin and tranylcypromine, and also the specific inhibitor of phospholipase A2, quinacrine, as well as pertussis toxin and the diglyceryl and monoglyceryl lipase inhibitor RHC 80267. Stimulated secretion was also abolished in cells that were either pretreated for 48 hr with phorbol ester to down-regulate protein kinase C or incubated with the protein kinase inhibitor H7. Hydrolysis of phosphatidylinositol by phospholipase A2 appears to be the source of angiogenin-mobilized arachidonate; angiogenin-induced hydrolysis of phosphatidylcholine was not detected. Activation of phospholipase A2 occurs in the absence of an angiogenin-induced calcium flux. The results are discussed in terms of mechanisms of agonist-induced intracellular arachidonate mobilization and relevance to angiogenesis.
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PMID:Angiogenin stimulates endothelial cell prostacyclin secretion by activation of phospholipase A2. 264 38

It has recently been appreciated that thrombin induces the retraction of endothelial cells resulting in an alteration of the integrity of the monolayers. We studied thrombin-induced changes in cytosolic calcium concentration (Ca2+i) using microfluorometry of fura-2-loaded single cells, cell topography (scanning electron microscopy), and cytoskeleton (rhodamine phalloidin) in endothelial cells. Thrombin caused an initial and sustained phase of an increase in Ca2+i. Pretreatment with pertussis toxin abolished both phases of Ca2+i response. Sustained phase of thrombin effect required extracellular calcium. Pretreatment of endothelial cells with indomethacin protracted the sustained phase, whereas a lipoxygenase inhibitor, nordihydroguaiaretic acid curtailed it. Thrombin caused a marked retraction of confluent endothelial cells coincident with the sustained phase of Ca2+i response. This was paralleled by the formation of gaps in F-actin distribution at the periphery of the cells. Pretreatment of endothelial cells with nordihydroguaiaretic acid blunted the thrombin-induced cell retraction. Microinjection of various putative messengers into the endothelial cells showed that initial Ca2+ mobilization is not sufficient to account for sustained elevation of Ca2+i. The sustained response required microinjection of phospholipase A2 or co-injection of phospholipase A2 with phosphatidylinositol 4,5-bisphosphate-specific phospholipase C, phosphatidylinositol 1,4,5-trisphosphate, or CaCl2, further implying that thrombin receptor(s) can be coupled to both phospholipases C and A2. Sustained elevation of Ca2+i was a necessary prerequisite for the thrombin-induced changes in endothelial cell topography.
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PMID:Nature of thrombin-induced sustained increase in cytosolic calcium concentration in cultured endothelial cells. 277 5

When RAW264.7 murine macrophages were incubated with cholera toxin or pertussis toxin, prostaglandin E2 (PGE2) synthesis was enhanced markedly. Cholera toxin and pertussis toxin added together synergistically stimulated PGE2 synthesis. Cholera toxin and pertussis toxin also stimulated cyclic AMP (cAMP) accumulation. However, PGE2 synthesis was independent of increases in cAMP, as neither forskolin nor isoproterenol, which increased cAMP accumulation, nor dibutyryl-cAMP had any effect on PGE2 synthesis. In intact cells, cholera toxin and pertussis toxin stimulated phospholipase A2 to enhance metabolism of phosphatidylinositol to lysophosphatidylinositol and glycerophosphoinositol, with time courses similar to their stimulation of PGE2 synthesis. Cholera toxin catalyzed ADP-ribosylation of proteins of Mr 45,000 and 49,000 in intact cells, whereas an additional substrate of Mr 41,000 was observed in vitro. Preincubation of intact cells with pertussis toxin blocked subsequent in vitro labeling of the Mr 41,000 protein by cholera toxin, suggesting that the same protein was ADP-ribosylated by both toxins. Western blot analysis using specific antisera against Gi, Go and Gs revealed that the Mr 41,000 substrate was bound by the anti-Gi and anti-Go but not anti-Gs. The present data suggest that guanine nucleotide binding regulatory proteins are involved in the regulation of arachidonic acid metabolism to PGE2 in RAW264.7 cells. Furthermore, the possibility is raised that phospholipase A2 is regulated by both stimulatory and inhibitory guanine nucleotide binding proteins.
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PMID:Cholera toxin and pertussis toxin stimulate prostaglandin E2 synthesis in a murine macrophage cell line. 283 52

The O2- production as a marker of the respiratory burst was investigated under various stimulations in polymorphonuclear leukocytes of healthy young and aged subjects. Stimulation of the respiratory burst in the cells of elderly by specific agents (opsonized zymozan, N-formyl-methionyl-leucyl-phenylalanine, carbachol) resulted in a diminished response while it remained unchanged on the effect of non-specific stimulation (A23187, phorbol myristate acetate) comparing to young subjects. To elucidate the postreceptor signal transduction mechanism involved in respiratory burst stimulation various inhibitors were used as follows: neomycin (for phospholipase C enzyme), mepacrine (for phospholipase A2 enzyme) and pertussis toxin (for GTP binding regulatory protein). The results suggest that phospholipase C as well as phospholipase A2 could be involved in the postreceptor signal transduction depending on the stimulus, but the impairment of the pertussis toxin sensitive GTP binding protein with aging might explain the decrease response of the respiratory burst after stimulating the different receptors.
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PMID:Studies on opsonized zymozan, FMLP, carbachol, PMA and A23187 stimulated respiratory burst of human PMNLs. 284 40

Lymphocytosis promoting factor (LPF), alternatively described as pertussis toxin, inhibits the vasodilation after beta 2-adrenoceptor stimulation with salbutamol as well as the negative chronotropic activity induced by the muscarinic receptor stimulant arecoline 4 days after vaccination of rats. To analyse whether arachidonic acid metabolites contributed to these phenomena the cyclo-oxygenase inhibitor indomethacin and the phospholipase A2 inhibitor dexamethasone were administered over a period of 4 days. Pretreatment with either drug restored beta 2-adrenoceptor responsiveness. The cardiac anticholinergic effect, however, was not changed. Interestingly, neither of the inhibitors prevented the blood pressure lowering effect of LPF. The reversing effect on vascular beta 2-hyporesponsiveness of indomethacin and dexamethasone therefore appears to be rather specific. It is concluded that endogenous prostaglandins may participate in the vascular beta 2-adrenergic impairment caused by LPF. Furthermore, the results are considered in view of desensitization theories and underlying mechanisms of LPF-induced autonomic impairment.
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PMID:Effects of dexamethasone and indomethacin on the vascular beta 2-adrenolytic action of pertussis toxin in rats; a prostaglandin-mediated phenomenon. 285 96

Thrombin exhibited diverse effects on mouse 3T3 fibroblasts. It (a) decreased cAMP in the cell suspension, (b) inhibited adenylate cyclase in the Lubrol-permeabilized cell suspension in a GTP-dependent manner, increased releases of (c) arachidonic acid and (d) inositol from the cell monolayer prelabeled with these labeled compounds, (e) increased 45Ca2+ uptake into the cell monolayer, and (f) increased 86Rb+ uptake into the cell monolayer in a ouabain-sensitive manner. Most of the effects were reproduced by bradykinin, platelet-activating factor, and angiotensin II. The receptors for these agonists are thus likely to be linked to three separate effector systems: the adenylate cyclase inhibition, the phosphoinositide breakdown leading to Ca2+ mobilization and phospholipase A2 activation, and the Na,K-ATPase activation. Among the effects of these agonists, (a), (b), (c), and (e) were abolished, but (d) and (f) were not, by prior treatment of the cells with islet-activating protein (IAP), pertussis toxin, which ADP-ribosylates the Mr = 41,000 protein, the alpha-subunit of the inhibitory guanine nucleotide regulatory protein (Ni), thereby abolishing receptor-mediated inhibition of adenylate cyclase. The effects (a), (c), (d), and (e) of thrombin, but not (b), were mimicked by A23187, a calcium ionophore. The effects of A23187, in contrast to those of receptor agonists, were not affected by the treatment of cells with IAP. Thus, the IAP substrate, the alpha-subunit of Ni, or the protein alike, may play an additional role in signal transduction arising from the Ca2+-mobilizing receptors, probably mediating process(es) distal to phosphoinositide breakdown and proximal to Ca2+ gating.
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PMID:Receptor-mediated inhibition of adenylate cyclase and stimulation of arachidonic acid release in 3T3 fibroblasts. Selective susceptibility to islet-activating protein, pertussis toxin. 286 Jan 11

In Swiss 3T3 fibroblasts bradykinin stimulated inositol phosphate (InsP) formation and prostaglandin E2 (PGE2) synthesis. The EC50 values for stimulation of PGE2 synthesis and InsP formation by bradykinin were similar, 200 pM and 275 pM, respectively. Guanosine-5'-[gamma-thio]triphosphate stimulated PGE2 synthesis and InsP formation, and guanosine-5'-[beta-thio]diphosphate inhibited both PGE2 synthesis and InsP formation stimulated by bradykinin. Neither bradykinin-stimulated PGE2 synthesis nor InsP formation was sensitive to pertussis toxin. Phorbol ester, dexamethasone, and cycloheximide distinguished between bradykinin-stimulated PGE2 synthesis and InsP formation. Phorbol 12-myristate 13-acetate enhanced bradykinin-stimulated PGE2 synthesis but inhibited bradykinin-stimulated InsP formation. Pretreatment of cells with dexamethasone for 24 hr inhibited bradykinin-stimulated PGE2 synthesis but was without effect on bradykinin-stimulated InsP formation. Cycloheximide inhibited bradykinin-stimulated PGE2 synthesis but was without effect on bradykinin-stimulated InsP formation. When bradykinin was added to cells prelabeled with [3H]choline, the phospholipase A2 products lysophosphatidylcholine and glycerophosphocholine were generated. In cells pretreated with dexamethasone, lysophosphatidylcholine and glycerophosphocholine formation induced by bradykinin were inhibited. Treatment of cells with phorbol ester enhanced bradykinin-induced formation of these metabolites. The data suggest that bradykinin receptors are coupled by GTP-binding proteins to both phospholipase C and phospholipase A2 and that phospholipase A2 is the enzyme that catalyzes release of arachidonate for prostaglandin synthesis.
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PMID:Dissociation of bradykinin-induced prostaglandin formation from phosphatidylinositol turnover in Swiss 3T3 fibroblasts: evidence for G protein regulation of phospholipase A2. 288 13

The cellular cGMP content increased in response to a variety of receptor agonists, which activate [e.g., prostaglandin (PG) E1, E2, and F2 alpha] or inhibit (e.g., alpha-adrenergic, muscarinic, and opiate agonists) adenylate cyclase in neuroblastoma X glioma hybrid NG108-15 cells. The responses were additive when PGF2 alpha and enkephalin were mixed. The inhibitory guanine nucleotide regulatory protein (Ni) is involved in adenylate cyclase inhibition; this function of Ni is lost when it is ADP-ribosylated by islet-activating protein (IAP), pertussis toxin [H. Kurose, T. Katada, T. Amano, and M. Ui (1983) J. Biol. Chem. 258, 4870-4875]. The cGMP rise induced by stimulation of the receptors linked to adenylate cyclase inhibition was also diminished by IAP; the time course and dose response for the IAP-induced diminution were the same between adenylate cyclase inhibition and cGMP generation. Ni thus appears to mediate guanylate cyclase activation as well as adenylate cyclase inhibition initiated via the same receptors. Melittin also increased cGMP. No additivity was shown when enkephalin and melittin were combined, suggesting that phospholipase A2 might play a role in Ni-mediated guanylate cyclase activation. On the other hand, the PGF2 alpha-induced cGMP rise was associated with increased incorporation of 32Pi into phosphatidylinositol; was not affected by cholera toxin, IAP or forskolin; and showed no additivity when combined with A23187, which increased cGMP by itself. PGs would occupy receptors linked to phosphatidylinositol breakdown, thereby increasing the availability of intracellular Ca2+, which is responsible for guanylate cyclase activation. Thus, dual pathways are proposed for a receptor-mediated cGMP rise in NG108-15 cells.
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PMID:Dual pathways of receptor-mediated cyclic GMP generation in NG108-15 cells as differentiated by susceptibility to islet-activating protein, pertussis toxin. 298 51


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