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)

Repetitive mechanical stimulation of differentiated skeletal muscle in tissue culture increased the long-term production of prostaglandin F2 alpha, an anabolic stimulator of myofiber growth. Within 4 h of initiating mechanical stimulation, the enzymatic activity of cyclooxygenase (prostaglandin GH synthase [PGHS]), a regulatory enzyme in prostaglandin synthesis, was increased 82% (P < .005), and this increase was maintained for at least 24 h. Kinetic analysis of stretch-activated cyclooxygenase activity indicated a two to threefold decrease in the enzyme's Km, with little change in its Vmax. Immunocytochemical analysis of the cell cultures indicated the presence of high levels of the mitogen-inducible isoform of cyclooxygenase (PGHS-2) in the skeletal myofibers compared to the interstitial fibroblasts. While the stretch-induced increase in cyclooxygenase enzymatic activity was not inhibited by tetrodotoxin and therefore was independent of cellular electrical activity, the G protein inhibitor pertussis toxin prevented stretch-induced cyclooxygenase activation. Pertussis toxin also inhibited stretch-induced increases in PGF2 alpha production, phospholipase D activation, and cell growth. It is concluded that stretch of skeletal muscle increases muscle cell growth through a G protein-dependent process involving the activation of cyclooxygenase, an immediate early gene product.
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PMID:Mechanical stimulation of skeletal muscle increases prostaglandin F2 alpha production, cyclooxygenase activity, and cell growth by a pertussis toxin sensitive mechanism. 770 73

Prostaglandin G/H synthase (PGHS) is one of the key enzymes in prostaglandin synthesis. Regulation of the mRNA expression of the two isozymes PGHS-1 and PGHS-2 was investigated in mesangial cells. PGHS-1 was constitutively expressed and not modulated by any of the stimuli used. PGHS-2 was induced by the platelet products serotonin (5-HT) and thromboxane A2 (used as its analogue U46619), but not by ATP. Expression of PGHS protein was regulated correspondingly; whereas PGHS-1 protein was constitutively expressed, PGHS-2 protein was virtually absent in unstimulated cells, but could increasingly be induced by the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA), 5-HT, or fetal calf serum. Induction of PGHS-2 mRNA was transient with a peak after 2-3 h. Stimulated mRNA levels persisted for more than 6 h when transcription was inhibited by actinomycin D or when translation was inhibited by cycloheximide. As shown by specific inhibitors, 5-HT signal transduction was mediated by 5-HT2 receptors, which couple to phospholipase C via pertussis toxin-sensitive G-proteins. Induction of PGHS-2 mRNA by 5-HT was dependent on protein kinase C. Down-regulation of the enzyme by prolonged incubation with TPA abolished 5-HT-induced PGHS-2 mRNA expression. Short time activation of protein kinase C by TPA induced PGHS-2 mRNA expression. On the other hand, TPA given immediately before 5-HT decreased the 5-HT-induced PGHS-2 mRNA expression, indicating a negative feedback. The immunosuppressive drug cyclosporin A reduced induction of PGHS-2 mRNA expression by 5-HT, indicating interference with the signaling cascade, most likely with the Ser/Thr phosphatase calcineurin. Involvement of Tyr phosphorylation in 5-HT signaling was shown by the Tyr kinase inhibitor genistein, which inhibited the induction, while the Tyr phosphatase inhibitor vanadate by itself was able to induce PGHS-2 mRNA expression, which was further augmented when vanadate was combined with 5-HT. PGHS-2 mRNA expression is thus tightly regulated in mesangial cells and therefore allows modulation at various levels by physiological and pharmacological stimuli.
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PMID:Signal transduction pathways responsible for serotonin-mediated prostaglandin G/H synthase expression in rat mesangial cells. 808 94

Thromboxane A2 (TXA2), the major cyclooxygenase (COX) product of arachidonic acid (AA), activates platelets and is a potent vasoconstrictor. The functional importance of this eicosanoid has been demonstrated in syndromes of acute coronary ischaemia. The cellular response to this agonist is tightly regulated. The liberation of AA from membrane phospholipids is conventionally thought to be the rate limiting step in TXA2 biosynthesis. However, the discovery of a second, highly regulated COX gene (COX-2) and the demonstration of product-based inactivation of COX and thromboxane synthase suggest a more complex regulation of TXA2 formation. TXA2 signalling is mediated by a G-protein linked receptor (PGH2/TXA2 receptor) which activates phospholipase C (PLC). Pharmacological studies suggest two distinct binding sites on platelets, but receptor heterogeneity has yet to be documented at a molecular level. The PGH2/TXA2 receptors are linked via a pertussis and cholera toxin-insensitive G-protein which has not been fully characterized, but is thought to belong to the Gq class of G-proteins. The diversity of G-protein alpha subunits, and growing evidence suggesting functional roles for the beta-gamma subunit, support a possible dual signalling mechanism of cellular activation. This may be of particular importance in regulating the response to eicosanoids with contrasting actions. A receptor for prostacyclin (PGI2) has not yet been cloned but biochemical studies suggest that it is linked to the activation of adenylate cyclase via Gs. At least three distinct prostaglandin E receptors have been identified. Desensitization of the cellular responses to the activation of TXA2, PGI2 and PGE receptors have been demonstrated and potential phosphorylation sites in their COOH terminal ends may be important in mediating this effect.
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PMID:Cellular activation by thromboxane A2 and other eicosanoids. 813 96

Activation of human monocytes induces the production of matrix metalloproteinases (MMPs) through a prostaglandin E2 (PGE2)-cAMP-dependent pathway. Since G-proteins have been documented to modulate adenylyl cyclase, we examined the effect of G-protein ADP-ribosylating agents, cholera toxin (CT) and pertussis toxin (PT), on the signal transduction pathway that culminates in the production of monocyte MMPs. Although CT elevated cAMP levels in both unstimulated and concanavalin A (Con A)-stimulated monocytes, it enhanced the production of prostaglandin H synthase-2 (PGH synthase-2, PGHS-2) protein, prostaglandins, interstitial collagenase, and 92-kDa type IV collagenase/gelatinase only in Con A-stimulated monocytes. Additionally, the indomethacin-mediated suppression of Con A-induced monocyte interstitial collagenase and 92-kDa type IV collagenase/gelatinase production could be reversed by CT. In contrast to the actions of CT, PT treatment suppressed the levels of cAMP, PGHS-2, PGE2, interstitial and 92-kDa type IV collagenase/gelatinase in Con A-stimulated monocytes. The regulation of MMP production by these toxins appears to be mediated primarily through their effect on adenylyl cyclase since the release of arachidonic acid was relatively unaffected by these agents. These findings provide evidence that G-proteins may be involved in either the enhancement or suppression of the eicosanoid-cAMP-dependent signal transduction pathway that results in the production of monocyte MMPs.
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PMID:Effect of cholera toxin and pertussis toxin on prostaglandin H synthase-2, prostaglandin E2, and matrix metalloproteinase production by human monocytes. 817 36

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

In renal mesangial cells, activation of protein tyrosine kinase receptors may increase the activity of mitogen-activated protein (MAP) kinases and subsequently induce expression of prostaglandin G/H synthase-2 (PGHS-2, cyclo-oxygenase-2). As examples, platelet-derived growth factor (PDGF) and epidermal growth factor (EGF) were shown to transiently enhance p42/44 MAP kinase activity, which was an essential step in the induction of PGHS-2 mRNA and protein. Inhibitors of receptor kinase activities, tyrphostins AG1296 and AG1478, specifically inhibited the effects of PDGF and EGF respectively. Activation of p42/44 and p38 MAP kinases and PGHS-2 induction were also mediated by lysophosphatidic acid (LPA), which binds to pertussis-toxin-sensitive G-protein-coupled receptors. LPA stimulation was inhibited by AG1296, but not AG1478, indicating involvement of the PDGF receptor kinase in LPA-mediated signalling. This was confirmed by pertussis-toxin-sensitive tyrosine phosphorylation of the PDGF receptor by LPA, whereas no phosphorylation of the EGF receptor was detected. For comparison, 5-hydroxytryptamine ('serotonin')-mediated signalling was only partially inhibited by AG1296, and also not affected by AG1478. A strong basal AG1296-sensitive tyrosine phosphorylation of the PDGF receptor and a set of other proteins was observed, which by itself was not sufficient to induce p42/44 MAP kinase activation, but played an essential role not only in LPA- but also in phorbol ester-mediated activation. Taken together, the PDGF receptor, but not the EGF receptor, is involved in LPA-mediated MAP kinase activation and PGHS-2 induction in primary mesangial cells, where both protein kinase receptors are present and functionally active.
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PMID:The platelet-derived-growth-factor receptor, not the epidermal-growth-factor receptor, is used by lysophosphatidic acid to activate p42/44 mitogen-activated protein kinase and to induce prostaglandin G/H synthase-2 in mesangial cells. 1062 Apr 97

Proliferation of hepatic myofibroblasts (hMF) is central for the development of fibrosis during liver injury, and factors that may limit their growth are potential antifibrotic agents. Sphingosine 1-phosphate (S1P) is a bioactive sphingolipid with growth-regulating properties, either via Edg receptors or through intracellular actions. In this study, we examined the effects of S1P on the proliferation of human hMF. Human hMF expressed mRNAs for the S1P receptors Edg1, Edg3, and Edg5. These receptors were functional at nanomolar concentrations and coupled to pertussis toxin-sensitive and -insensitive G proteins, as demonstrated in guanosine 5'-3-O-(thio)triphosphate binding assays. S1P potently inhibited hMF growth (IC(50) = 1 microm), in a pertussis toxin-insensitive manner. Analysis of the mechanisms involved in growth inhibition revealed that S1P rapidly increased prostaglandin E(2) production and in turn cAMP, two growth inhibitory messengers for hMF; C(2)-ceramide and sphingosine, which inhibited hMF proliferation, did not affect cAMP levels. Production of cAMP by S1P was abolished by NS-398, a selective inhibitor of COX-2. Also, S1P potently induced COX-2 protein expression. Blocking COX-2 by NS-398 blunted the antiproliferative effect of S1P. We conclude that S1P inhibits proliferation of hMF, probably via an intracellular mechanism, through early COX-2-dependent release of prostaglandin E(2) and cAMP, and delayed COX-2 induction. Our results shed light on a novel role for S1P as a growth inhibitory mediator and point out its potential involvement in the negative regulation of liver fibrogenesis.
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PMID:Antiproliferative properties of sphingosine 1-phosphate in human hepatic myofibroblasts. A cyclooxygenase-2 mediated pathway. 1094 78

Previous work has suggested that functional interrelationships may exist between inhibition of insulin secretion by interleukin (IL)-1beta and the endogenous synthesis of prostaglandin E(2) (PGE(2)) in the pancreatic islet. These studies were performed to ascertain the relative abundance of E prostaglandin (EP) receptor mRNAs in tissues that are major targets, or major degradative sites, of insulin; to identify which EP receptor type mediates PGE(2) inhibition of insulin secretion in pancreatic islets; and to examine possible sites of action through which sodium salicylate might affect IL-1beta/PGE(2) interactions. Real-time fluorescence-based RT-PCR indicated that EP3 is the most abundant EP receptor type in islets, liver, kidney, and epididymal fat. EP3 mRNA is the least, whereas EP2 mRNA is the most, abundant type in skeletal muscle. Misoprostol, an EP3 agonist, inhibited glucose-induced insulin secretion from islets, an event that was prevented by preincubation with pertussis toxin, by decreasing cAMP. Electromobility shift assays demonstrated that sodium salicylate inhibits IL-1beta-induced nuclear factor-kappaB (NF-kappaB) activation. Sodium salicylate also prevented IL-1beta from inducing EP3 and cyclooxygenase (COX)-2 gene expression in islets and thereby prevented IL-1beta from inhibiting glucose-induced insulin secretion. These findings indicate that the sites of action through which sodium salicylate inhibits these negative effects of IL-1beta on beta-cell function include activation of NF-kappaB as well as generation of PGE(2) by COX-2.
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PMID:Inhibition of interleukin-1beta-induced COX-2 and EP3 gene expression by sodium salicylate enhances pancreatic islet beta-cell function. 1203 64

We have earlier demonstrated that dopamine stimulates the liberation of the prostaglandin E(2) (PGE(2)) precursor, arachidonic acid, in Chinese hamster ovary cells transfected with the rat dopamine D(2) receptor (long isoform), also without concomitant administration of a Ca(2+)-releasing agent [Nilsson et al., Br J Pharmacol 1998;124:1651-8]. In the present report, we show that dopamine, under the same conditions, also induces a concentration-dependent increase in the production of PGE(2), with a maximal effect of 235% at approximately 100 microM, and with an EC(50) of 794 nM. The effect was counteracted by the D(2) antagonist eticlopride, pertussis toxin, the inhibitor of intracellular Ca(2+) release TMB-8, incubation in Ca(2+)-free experimental medium, and PKC desensitization obtained by chronic pretreatment with the phorbol ester TPA. It was also antagonized by the non-specific cyclooxygenase (COX) inhibitor, indomethacin, and by the selective COX-2 inhibitor, NS-398, but not by the specific COX-1 inhibitor, valeryl salicylate. Both the non-specific phospholipase A(2) inhibitor, quinacrine, and an inhibitor of cPLA(2) and iPLA(2), AACOF3, counteracted the effect; in contrast, a selective iPLA(2) inhibitor, BEL, and a selective sPLA(2) inhibitor, TAPC, were ineffective. No effects of dopamine were obtained in control cells mock-transfected with the p3C vector only. The results reinforce previous assumptions that dopamine may interact with eicosanoid metabolism by means of D(2) receptor activation, and implicate an involvement of cPLA(2) and COX-2 in this effect. It is suggested that measurement of dopamine-induced PGE(2) production may serve as a convenient way to study D(2) receptor function in vitro.
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PMID:Dopamine D(2) receptor-induced COX-2-mediated production of prostaglandin E(2) in D(2)-transfected Chinese hamster ovary cells without simultaneous administration of a Ca(2+)-mobilizing agent. 1211 Mar 74

Prostaglandins (PGs) play an important role in bone remodeling because eicosanoids are local mediators of bone metabolism, which can induce physiological and pathological responses of bone tissue. Biosynthesis of PGs is catalyzed by constitutively expressed PG endoperoxide G/H synthase (PGHS) 1 and by the inducible isoform PGHS-2. In MC3T3-E1 osteoblast-like cells, expression of PGHS-2 was shown by mechanical forces, cytokines, growth factors, and hormones. Recently, endothelin (ET) 1-stimulated PGHS-2 mRNA expression was described, leading to a burst in prostaglandin E2 (PGE2) production. In this study, we investigated ET-1-induced signal transduction pathway(s) involved in the PGHS-2 mRNA production. Time course of PGHS-2 mRNA expression reaching the maximum within 45 minutes is in good agreement with the concept of an immediate early gene product. Inhibition of phospholipase C (PLC), phospholipase D (PLD), phosphatidylinositol-3 kinase (PI-3-kinase), and protein kinase C (PKC) had no influence on PGHS-2 synthesis. Using specific blockers of tyrosine kinases indicated involvement of p38 MAPK but not p42/44 MAPK. By preloading cells with exoenzyme C3, we were able to show requirement of the Rho family of G proteins for p38 MAPK phosphorylation and PGHS-2 mRNA synthesis, whereas pertussis toxin (PTX) and cholera toxin (CTX) had no remarkable effect.
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PMID:Involvement of Rho and p38 MAPK in endothelin-1-induced expression of PGHS-2 mRNA in osteoblast-like cells. 1236 81


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