UMLS:C0043167 - FACTA Search

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

In the present study we have examined the effects and mechanisms of endothelin-1 (ET-1) on arachidonic acid (AA) release and prostaglandin (PG) synthesis in human ciliary muscle (HCM) cells. ET-1 stimulated AA release in a time (t1/2=1.5 min) and concentration-dependent (EC50=5 nM) manner, which is primarily mediated through the ETA receptor subtype. The AA liberated by ET-1 appears to derive mainly from the phosphoinositides and phosphatidylcholine. Our data show that phospholipase A2 (PLA2), but not phospholipase C (PLC), plays an important role in ET-1-induced AA release. This conclusion is supported by the following findings: (1) ET-1-evoked AA release was inhibited by the PLA2 inhibitors dexamethasone, mepacrine and manoalide in a concentration-dependent manner. Conversion of AA into PGE2 was inhibited by the cyclooxygenase inhibitors in the following order: Indomethacin>naproxen >ibuprofen>NS-398>aspirin. (2) The phorbol ester, PDBu, an activator of protein kinase C, potentiated ET-1-induced AA release by 39%, but inhibited that of inositol phosphates formation by 62%. (3) Pretreatment of the labeled cells with isoproterenol lowered ET-1-induced inositol phosphates production, but had no effect on AA release. (4) U71322, a PLC inhibitor, inhibited ET-1-induced inositol phosphates production, but had no effect on that of AA release. (5) Pretreatment of the cells with pertussis toxin (0.1 microg ml-1) attenuated the stimulatory effects of ET-1 on AA release and PGE2 formation. These data demonstrate that ET-1 is a potent agonist for AA release and PG synthesis in HCM cells, and that PLA2, but not PLC, plays an important role in ET-1-induced AA release and PG synthesis. In ciliary muscle, AA and its metabolites play important roles in intracellular signalling, modulation of physiological processes, and regulation of intraocular pressure.
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PMID:Endothelin-1 stimulates the release of arachidonic acid and prostaglandins in cultured human ciliary muscle cells: activation of phospholipase A2. 923 67

The effects of mastoparan on phosphoinositide hydrolysis and prostaglandin E2 (PGE2) generation were investigated in astrocytes cultured from rabbit brain. Mastoparan inhibited the accumulations of [3H]inositol phosphates induced by bradykinin (1 microM) in a time- and concentration-dependent manner. Mastoparan (3-30 microM) also released PGE2 in a time- and concentration-dependent manner. Mastoparan-induced release of PGE2 was inhibited by indomethacin, a cyclooxygenase inhibitor, by dexamethasone, a steroidal anti-inflammatory drug, and by pertussis toxin, an inactivator of some G proteins, such as Gi and Go. Mastoparan also caused [3H]arachidonic acid liberation, which was inhibited by dexamethasone or pertussis toxin. In contrast, indomethacin, dexamethasone and pertussis toxin failed to attenuate mastoparan-induced inhibition of [3H]inositol phosphate accumulation induced by bradykinin. Thus, mastoparan-induced inhibition of phosphoinositide hydrolysis does not involve pertussis toxin-sensitive G protein nor arachidonic acid metabolites. In addition to the inhibition of phospholipase C, mastoparan activates phospholipase A2 through pertussis toxin-sensitive G protein.
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PMID:Mastoparan elicits prostaglandin E2 generation and inhibits inositol phosphate accumulation via different mechanisms in rabbit astrocytes. 924 76

Vascular smooth muscle cells (SMCs) can be induced to proliferate in response to several cytokines and growth factors, including interleukin (IL)-6. Platelet-activating factor (PAF) also has been shown to induce SMC proliferation. Because PAF can stimulate IL-6 production in monocytes, macrophages, and endothelial cells, our study was undertaken to determine whether PAF could induce IL-6 production by SMCs and to define the underlying signaling pathways. Exposure of rat aortic SMCs to picomolar concentrations of PAF resulted in enhanced production of IL-6. The effect was concentration dependent, selective for the active form of PAF, and mediated by specific PAF receptors. Pretreatment of the cells with Bordatella pertussis toxin (PTX) prevented the effect of PAF, suggesting the involvement of alpha i-type subunits of G proteins in the signal-transduction pathway. PAF-dependent IL-6 production was also prevented by inhibition of tyrosine kinases with genistein or erbstatin. Inhibition of eicosanoid production by blocking either phospholipase A2 or cyclooxygenase also abrogated the effect of PAF on IL-6 production. Moreover, inhibition of Ca2+-calmodulin activity with W7 or blocking of calcium channels with verapamil or nifedipine prevented PAF-mediated enhancement of IL-6 production. Whereas PAF-induced signal-transduction pathways leading to IL-6 production and SMC proliferation were partially common, they appeared to diverge downstream of PLA2 activation: inhibition of cyclooxygenase had no effect on proliferation, whereas augmentation of cyclic adenosine monophosphate (cAMP) levels or activation of protein kinase A inhibited proliferation, in contrast to IL-6 production. Our findings suggest a role for PAF in modulating vascular function by stimulating local production of IL-6 by SMCs and promoting their proliferation. The two effects are, however, associated with partially divergent signaling pathways and may not be causally related.
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PMID:Differential signaling pathways in platelet-activating factor-induced proliferation and interleukin-6 production by rat vascular smooth muscle cells. 926 43

1. In vitro studies were performed to examine the mechanisms underlying substance P-induced enhancement of constriction rate in guinea-pig mesenteric lymphatic vessels. 2. Substance P caused an endothelium-dependent increase in lymphatic constriction frequency which was first significant at a concentration of 1 nM (115 +/- 3% of control, n = 11) with 1 microM, the highest concentration tested, increasing the rate to 153 +/- 4% of control (n = 9). 3. Repetitive 5 min applications of substance P (1 microM) caused tachyphylaxis with tissue responsiveness tending to decrease (by an average of 23%) and significantly decreasing (by 72%) for application at intervals of 30 and 10 min, respectively. 4. The competitive antagonist of tachykinin receptors, spantide (5 microM) and the specific NK1 receptor antagonist, WIN51708 (10 microM) both prevented the enhancement of constriction rate induced by 1 microM substance P. 5. Endothelial cells loaded with the Ca2+ sensing fluophore, fluo 3/AM did not display a detectable change in [Ca2+]i upon application of 1 microM substance P. 6. Inhibition of nitric oxide synthase by NG nitro-L-arginine (L-NOARG; 100 microM) had no significant effect on the response induced by 1 microM substance P. 7. The enhancement of constriction rate induced by 1 microM substance P was prevented by the cyclooxygenase inhibitor, indomethacin (3 microM), the thromboxane A2 synthase inhibitor, imidazole (50 microM), and the thromboxane A2 receptor antagonist, SQ29548 (0.3 microM). 8. The stable analogue of thromboxane A2, U46619 (0.1 microM) significantly increased the constriction rate of lymphangions with or without endothelium, an effect which was prevented by SQ29548 (0.3 microM). 9. Treatment with pertussis toxin (PTx; 100 ng ml-1) completely abolished the response to 1 microM substance P without inhibiting either the perfusion-induced constriction or the U46619-induced enhancement of constriction rate. 10. Application of the phospholipase A2 inhibitor, antiflammin-1 (1 nM) prevented the enhancement of lymphatic pumping induced by substance P (1 microM), without inhibiting the response to either U46619 (0.1 microM) or acetylcholine (10 microM). 11. The data support the hypothesis that the substance P-induced increase in pumping rate is mediated via the endothelium through NK1 receptors coupled by a PTx sensitive G-protein to phospholipase A2 and resulting in generation of the arachidonic acid metabolite, thromboxane A2 this serving as the diffusible activator.
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PMID:Evidence that the substance P-induced enhancement of pacemaking in lymphatics of the guinea-pig mesentery occurs through endothelial release of thromboxane A2. 928 91

The gamma subunits of trimeric G-proteins (gamma1, gamma2, gamma5, and gamma7 isoforms) were found to be methylated at their carboxyl termini in normal rat islets, human islets and pure beta [HIT-T15] cells. Of these, GTPgammaS significantly stimulated the carboxyl methylation selectively of gamma2 and gamma5 isoforms. Exposure of intact HIT cells to either of two receptor-independent agonists--a stimulatory concentration of glucose or a depolarizing concentration of K+--resulted in a rapid (within 30 s) and sustained (at least up to 60 min) stimulation of gamma subunit carboxyl methylation. Mastoparan, which directly activates G-proteins (and insulin secretion from beta cells), also stimulated the carboxyl methylation of gamma subunits in intact HIT cells. Stimulatory effects of glucose or K+ were not demonstrable after removal of extracellular Ca2+ or depletion of intracellular GTP, implying regulatory roles for calcium fluxes and GTP; however, the methyl transferase itself was not directly activated by either. The stimulatory effects of mastoparan were resistant to removal of extracellular Ca2+, implying a mechanism of action that is different from glucose or K+ but also suggesting that dissociation of the alphabetagamma trimer is conducive to gamma subunit carboxyl methylation. Indeed, pertussis toxin also markedly attenuated the stimulatory effects of glucose, K+ or mastoparan without altering the rise in intracellular calcium induced by glucose or K+. Glucose-induced carboxyl methylation of gamma2 and gamma5 isoforms was vitiated by coprovision of any of three structurally different cyclooxygenase inhibitors. Conversely, exogenous PGE2, which activates Gi and Go in HIT cells and which thereby would dissociate alpha from beta(gamma), stimulated the carboxyl methylation of gamma2 and gamma5 isoforms and reversed the inhibition of glucose-stimulated carboxyl methylation of gamma subunits elicited by cyclooxygenase inhibitors. These data indicate that gamma subunits of trimeric G-proteins undergo a glucose- and calcium-regulated methylation-demethylation cycle in insulin-secreting cells, findings that may imply an important role in beta cell function. Furthermore, this is the first example of the regulation of the posttranslational modification of G-protein gamma subunits via nonreceptor-mediated activation mechanisms, which are apparently dependent on calcium influx and the consequent activation of phospholipases releasing arachidonic acid.
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PMID:Glucose activates the carboxyl methylation of gamma subunits of trimeric GTP-binding proteins in pancreatic beta cells. Modulation in vivo by calcium, GTP, and pertussis toxin. 929 29

Angiotensin II (ANG II) has long been known for its pressor and growth-promoting effects, which are both mediated by the AT1 receptor. By contrast, the AT2 receptor has recently been reported to mediate inhibition of proliferation through as yet undefined mechanisms. We report here that in bovine adrenal fasciculata cells ANG II by itself does not affect growth but inhibits basic fibroblast growth factor (bFGF)-induced DNA synthesis and blocks the cells in G1 phase. Consistent with this, ANG II inhibits cyclin D1 expression and cyclin D1-associated kinase activity. The antimitogenic effect of ANG II is partly mimicked by the AT2-selective agonist CGP-42112. It is also blocked partly and in an additive fashion by the AT1- and AT2-selective antagonists losartan and PD-123319, indicating the contribution of both receptor subtypes to this response. AT1-dependent antiproliferation is selectively blocked by the cyclooxygenase inhibitor indomethacin and restored by prostaglandin E2, whereas AT2-receptor-mediated inhibition of growth is suppressed by the tyrosine phosphatase inhibitors orthovanadate and bpV(pic). Both pathways are, however, pertussis toxin sensitive. We hypothesize that, in fasciculata cells, the AT1 receptor inhibits bFGF-induced proliferation by stimulating prostaglandin synthesis, whereas the AT2 receptor mediates its effect through a pathway that requires protein tyrosine phosphatase activation.
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PMID:ANG II AT1 and AT2 receptors both inhibit bFGF-induced proliferation of bovine adrenocortical cells. 935 77

G-proteins have been implicated in the transduction of a number of flow-induced responses. We determined whether flow can modulate vascular endothelial or smooth muscle cell G-protein signaling. By use of a perfused transcapillary coculture system that permits the chronic exposure of cultured endothelial cells (ECs) and smooth muscle cells (SMCs) to physiological shear stresses, cocultures were exposed to stepwise increases in flow up to (1) 2 mL/min (low flow: 0.5 dyne/cm2), or (2) 44 mL/min (high flow: 15 dyne/cm2) and maintained for 72 hours before SMCs and ECs were harvested separately. Using Western blot analysis, EC Gi alpha3 expression was significantly increased (41+/-2.9%) by high-flow conditions compared with low-flow. The changes in G-protein expression were associated with a significant increase in endothelial nitric oxide synthase (eNOS) activity, elevated prostacyclin levels in the perfusing media, increased pertussis toxin-catalyzed ADP ribosylation of Gi alpha substrates, and enhanced agonist-stimulated GTPase activity in cocultured ECs. In contrast, high flow induced a significant decrease in Gi alpha1-2 expression (57 5%) in SMCs cocultured with ECs, an effect that was endothelium dependent, inhibited by indomethacin, and correlated with a decrease in pertussis toxin-catalyzed ADP ribosylation of Gi alpha substrates, reduced agonist-stimulated GTPase activity, and enhanced basal and G-protein-stimulated adenylyl cyclase activity. These data demonstrate that flow mediates selective changes in EC and SMC G-protein expression concomitant with changes in G-protein functionality and cellular signaling capacity. Moreover, flow-induced changes in SMC G-protein signaling capacity are endothelium dependent and require a cyclooxygenase product. G-protein modulation may thus represent an important mechanism whereby hemodynamic forces regulate vessel wall function.
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PMID:Flow-mediated regulation of G-protein expression in cocultured vascular smooth muscle and endothelial cells. 944 59

During inflammatory processes of the kidney, lesions of the glomerulus lead to aggregation of thrombocytes and infiltration of macrophages, which can release bioactive mediators. One of these important signalling molecules is lysophosphatidic acid (LPA). Incubation of rat mesangial cells with LPA induced mRNA and protein expression of the early-response genes pghs-2 (for prostaglandin G/H synthase-2/cyclo-oxygenase-2) and egr-1. As shown by antisense experiments, induction of egr-1 was related to the strong mitogenic effect of LPA. LPA-mediated gene expression was inhibited by pertussis toxin, indicating coupling to G-proteins of the Gi family. Specific inhibition of proteins of the small G-protein subfamily Rho with toxin B from Clostridium difficile led to changes in mesangial cell morphology without induction of apoptosis. LPA-mediated expression of pghs-2 and egr-1 was reduced to base-line levels by toxin B, indicating a role for Rho proteins in LPA-mediated gene induction. Of the two mitogen-activated protein kinase (MAPK) pathways investigated, the MAPK kinase-extracellular signal-regulated kinase pathway was involved in the induction of both pghs-2 and egr-1 mRNA expression, as shown by the inhibitory effect of PD98059. Activation of the MAPK p38, however, was only related to pghs-2 expression, whereas egr-1 expression was not affected by treatment of mesangial cells with the specific inhibitor SB203580. Taken together our data provide evidence that LPA-mediated activation of MAPK kinase and Rho proteins leads to the induction of the functionally distinct early-response genes pghs-2 and egr-1, whereas activation of MAPK p38 revealed considerable differences between the regulation of these two genes.
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PMID:Lysophosphatidic acid-mediated signal-transduction pathways involved in the induction of the early-response genes prostaglandin G/H synthase-2 and Egr-1: a critical role for the mitogen-activated protein kinase p38 and for Rho proteins. 949 74

We have previously shown that 1,25-dihydroxyvitamin D3 (1,25(OH)2D3) plays a major role in growth zone chondrocyte (GC) differentiation and that this effect is mediated by protein kinase C (PKC). The aim of the present study was to identify the signal transduction pathway used by 1,25(OH)2D3 to stimulate PKC activation. Confluent, fourth passage GC cells from costochondral cartilage were used to evaluate the mechanism of PKC activation. Treatment of GC cultures with 1,25(OH)2D3 elicited a dose-dependent increase in both inositol-1,4,5-trisphosphate and diacylglycerol (DAG) production, suggesting a role for phospholipase C and potentially for phospholipase D. Addition of dioctanoylglycerol to plasma membranes isolated from GCs increased PKC activity. Neither pertussis toxin nor choleratoxin had an inhibitory effect on PKC activity in control or 1,25(OH)2D3-treated GCs, indicating that neither Gi nor Gs proteins were involved. Phospholipase A2 inhibitors, quinacrine, OEPC (selective for secretory phospholipase A2), and AACOCF3 (selective for cytosolic phospholipase A2), and the cyclooxygenase inhibitor indomethacin decreased PKC activity, while the phospholipase A2 activators melittin and mastoparan increased PKC activity in GC cultures. Arachidonic acid and prostaglandin E2, two downstream products of phospholipase A2 action, also increased PKC activity. These results indicate that 1,25(OH)2D3-dependent stimulation of PKC activity is regulated by two distinct phospholipase-dependent mechanisms: production of DAG, primarily via phospholipase C and production of arachidonic acid via phospholipase A2.
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PMID:1,25(OH)2D3 regulates protein kinase C activity through two phospholipid-dependent pathways involving phospholipase A2 and phospholipase C in growth zone chondrocytes. 955 56

Signaling pathways responsible for serotonin (5-HT)-mediated induction of early response genes prostaglandin G/H synthase-2 (PGHS-2, cyclooxygenase-2) and egr-1 were investigated in rat mesangial cells. Gene induction by 5-HT was dependent on 5-HT2A receptors that were pertussis toxin insensitive indicating coupling to a G-protein of the Gq family. Binding of 5-HT to this receptor activates phosphatidylinositol-specific phospholipase C (PLC) and release of Ca2+ from internal stores, but this activation was not related to PGHS-2 mRNA expression. Similarly, PI-3 kinase was not involved in 5-HT signaling. Instead, inhibition of phosphatidylcholine-specific PLC interfered with PGHS-2 and egr-1 mRNA induction, suggesting this enzyme as a link between 5-HT2A receptors and protein kinase C, an essential part of 5-HT-mediated signaling. The MAP kinase pathway was identified as common signaling pathway of 5-HT or phorbol ester-induced gene expression. Increase of intracellular cAMP by forskolin or dibutyryl cAMP did not induce PGHS-2 or egr-1 mRNA expression by itself, but strongly inhibited 5-HT-mediated mRNA induction. PGHS-2 mRNA and protein induction by 5-HT was also abolished by chelation of Ca2+ ions by EGTA, suggesting involvement of Ca2+-dependent enzymes. In contrast, egr-1 mRNA expression was superinduced in the presence of EGTA. Induction of Egr-1 protein was not changed by EGTA hinting to Ca2+-sensitive posttranscriptional steps. Activation of the Gq-coupled 5-HT2A receptor thus leads to the expression of the early response genes PGHS-2 and egr-1, using common as well as differing signaling elements that allow differential regulation of the expression of these genes that are functionally related to renal hemodynamics and proliferation of mesangial cells, respectively.
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PMID:Signaling pathways mediating induction of the early response genes prostaglandin G/H synthase-2 and egr-1 by serotonin via 5-HT2A receptors. 957 79

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