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)

A variety of receptors coupled to GTP-binding regulatory proteins (G proteins) initiate signals that culminate in activation of the mitogen-activated protein kinases ERK1 and ERK2. We demonstrate here that the human 5-HT1A receptor expressed in Chinese hamster ovary cells similarly promotes activation of ERK1 and ERK2, but that the pathway used does not conform entirely to those proposed previously for G protein-coupled receptors. Activation of ERK2 by the 5-HT1A receptor-selective agonist 8-hydroxy-N,N-dipropyl-2-aminotetralin hydrobromide (8-OH-DPAT) was inhibited completely by pertussis toxin and substantially by prolonged treatment of cells with phorbol 12-myristate 13-acetate. The implied requirement for protein kinase C, however, was negated in studies with bisindolylmaleimide and Ro-31-8220, which, although completely inhibiting activation of ERK2 by phorbol ester, had no impact on activation by 8-OH-DPAT. The anticipated inhibition by the tyrosine kinase inhibitors genistein and herbimycin A, moreover, was marginal at best. As expected for a Gi-coupled receptor, the inhibitors of phosphatidylinositol 3-kinase wortmannin and LY294002 inhibited activation of ERK2, albeit only partly (70%). Of significance, an inhibitor of a phosphatidylcholine-specific phospholipase C, tricyclodecan-9-yl-xanthogenate (D609), caused a similar degree of inhibition. When the two types of inhibitors were combined, an almost complete inhibition was achieved. Our data suggest that phosphatidylinositol 3-kinase and phosphatidylcholine-specific phospholipase C represent components of different, but partly overlapping pathways that can account almost entirely for the activation of ERK2 by the 5-HT1A receptor.
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PMID:Activation of a mitogen-activated protein kinase (ERK2) by the 5-hydroxytryptamine1A receptor is sensitive not only to inhibitors of phosphatidylinositol 3-kinase, but to an inhibitor of phosphatidylcholine hydrolysis. 879 86

Pertussis toxin (PTX) is a heterohexameric protein, which is divided into subunits A and B. The A-subunit (protomer) possesses adenine diphosphate (ADP) ribosyltransferase activity, and the B-oligomer confers cell surface binding specificity on the toxin. By virtue of the ADP-ribosylation activity in the A-subunit, PTX has become a very useful pharmacological tool for the identification of inhibitory guanine nucleotide binding (Gi) proteins in the plasma membrane. However, the pharmacological properties of the PTX B-oligomer are largely unknown. In the course of identifying its binding site(s), PTX B-oligomer was recently found to elicit direct cellular responses in a variety of cell types. Several cell surface receptors with oligosaccharide side chains have been shown to be specifically bound by PTX B-oligomer. Moreover, occupation of these putative receptors by the B-oligomer alone can trigger phospholipase C and tyrosine kinase dependent signal transduction events. The impact of these B-oligomer-mediated rapid signaling responses on the subsequent ADP-ribosylation of Gi protein by the A-subunit remains to be determined. These recent findings caution investigators not to attribute inhibitory effects of PTX solely to ADP-ribosylation of Gi protein without first examining the cellular responses using PTX B-oligomer.
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PMID:Pharmacology of pertussis toxin B-oligomer. 888 20

Integrin-associated protein (IAP) is a receptor for the carboxyl-terminal "cell-binding domain" (CBD) of thrombospondin 1 (TS1). IAP associates with alpha v beta 3 integrin and mAbs against IAP inhibit certain integrin functions. Here we examine the effects of the TS1 CBD and 4N1K (KRFYVVMWKK), a cell-binding peptide derived from it, on the adhesion and spreading on vitronectin (VN) of C32 human melanoma cells which express IAP, alpha v beta 3, and alpha v beta 5. Cells adhere to VN at low surface densities via alpha v beta 5 and spread very slowly while adhesion to higher density VN involves both alpha v beta 5 and alpha v beta 3 and results in rapid spreading. Spreading of the cells, but not adhesion, on sparse VN coatings is markedly enhanced by the presence of soluble TS1, the recombinant CBD and 4N1K, but not the "mutant" peptide 4NGG, KRFYGGMWKK, which fails to bind IAP. This enhanced spreading is completely blocked by mAb LM609 against alpha v beta 3 and the anti-IAP mAb B6H12. Correlated with this enhanced spreading is increased tyrosine phosphorylation of focal adhesion kinase (FAK), paxillin, and a protein of ca. 90 kD. The enhanced spreading induced by TS1 and 4N1K and the constitutive spreading on higher density VN are both blocked by calphostin C (100 nM), wortmannin (10 nM), and tyrosine kinase inhibitors. In contrast, pertussis toxin specifically blocks only the TS1 stimulated spreading on low density VN, indicating that IAP exerts its effects on signal transduction via a heterotrimeric Gi protein acting upstream of a common cell spreading pathway which includes PI-3 kinase, PKC, and tyrosine kinases.
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PMID:Thrombospondin modulates alpha v beta 3 function through integrin-associated protein. 889 8

Tumour cell arrest and the formation of stable adhesive interactions between tumour cells and endothelial cells or underlying matrix in the microvasculature are crucial steps in the metastatic process. We have developed a sensitive hydrodynamic adhesion assay to investigate the regulation of melanoma cell adhesion stabilization to the extracellular matrix protein fibronectin. Modulators of human MeWo melanoma Ca2+ concentration and stores, including ionomycin, thapsigargin, dantrolene and caffeine, inhibited cell adhesion stabilization to fibronectin; however, removal of Ca2+ from the extracellular medium did not affect stabilization. The calmodulin inhibitor W-7 and the protein kinase C inhibitor chelerythrine also blocked MeWo adhesion stabilization to fibronectin, as did the tyrosine kinase inhibitor genistein and the cytoskeletal inhibitor cytochalasin D. Manipulation of MeWo cell intracellular CAMP levels had no effect of adhesion stabilization to fibronectin, nor did treatment of cells with phorbol ester, pertussis toxin or cholera toxin. Drug treatments that inhibited adhesion stabilization also had significant effects on the actin cytoskeleton organization of the melanoma cells. This study suggests a role for calcium, calmodulin, protein kinase C and tyrosine kinases in the intracellular regulation of MeWo adhesive stabilization.
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PMID:Regulation of melanoma cell adhesion stabilization to fibronectin. 890 95

The effect of anisoosmolarity on the abundance of various mRNA species was examined in perfused rat liver and H4IIE rat hepatoma cells. Hyperosmotic exposure (385 mosmol/l) of isolated rat livers increased mRNA levels for tyrosine aminotransferase (TAT) by 246% and those for phosphoenolpyruvate carboxykinase (PEPCK) by 186%, whereas hypoosmotic exposure (225 mosmol/l) decreased their levels to 43% and 42%, respectively. mRNA levels for fructose-1,6-bisphosphatase (FBP), argininosuccinate lyase (ASL), argininosuccinate synthetase (ASS), glutamine synthetase (GS), glutaminase (GA) and glucokinase (GK) were largely unaffected. In H4IIE cells the modulation of TAT and PEPCK mRNA levels by anisoosmotic exposure was similar to that found in perfused rat liver. ASL and glutaminase mRNA levels were influenced in an opposite manner. The effects of anisoosmolarity on PEPCK mRNA levels in H4IIE cells were largely abolished in the presence of the protein kinase inhibitors H-7, H-89 and HA-1004. Other protein kinase inhibitors such as Go-6850, KN-62, Rp-8-CPT-cAMPS, rapamycin, wortmannin, genistein or herbimycin did not prevent the osmosensitivity of PEPCK mRNA levels. Also pertussis and cholera toxin, vanadate and colchicine did not affect the osmosensitivity of PEPCK mRNA levels. The data suggest that anisoosmotic exposure acts on the levels of some but not all mRNA species and that this action may involve changes in protein phosphorylation. They further indicate that the recently identified osmosensitive signal transduction pathway which involves a G-protein and tyrosine kinase dependent activation of mitogen-activated protein kinases is apparently not involved in the osmoregulation of PEPCK mRNA levels.
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PMID:Anisoosmotic regulation of hepatic gene expression. 892 14

In 1321N1 astrocytoma cells, thrombin, but not carbachol, induces AP-1-mediated gene expression and DNA synthesis. To understand the divergent effects of these G protein-coupled receptor agonists on cellular responses, we examined Gq-dependent signaling events induced by thrombin receptor and muscarinic acetylcholine receptor stimulation. Thrombin and carbachol induce comparable changes in phosphoinositide and phosphatidylcholine hydrolysis, mobilization of intracellular Ca2+, diglyceride generation, and redistribution of protein kinase C; thus, activation of these Gq-signaling pathways appears to be insufficient for gene expression and mitogenesis. Thrombin increases Ras and mitogen-activated protein kinase activation to a greater extent than carbachol in 1321N1 cells. The effects of thrombin are not mediated through Gi, since ribosylation of Gi/Go proteins by pertussis toxin does not prevent thrombin-induced gene expression or thrombin-stimulated DNA synthesis. We recently reported that the pertussis toxin-insensitive G12 protein is required for thrombin-induced DNA synthesis. We demonstrate here, using transfection of receptors and G proteins in COS-7 cells, that G alpha 12 selectively couples the thrombin receptor to AP-1-mediated gene expression. This does not appear to result from increased mitogen-activated protein kinase activity but may reflect activation of a tyrosine kinase pathway. We suggest that preferential coupling of the thrombin receptor to G12 accounts for the selective ability of thrombin to stimulate Ras, mitogen-activated protein kinase, gene expression, and mitogenesis in 1321N1 cells.
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PMID:Coupling of the thrombin receptor to G12 may account for selective effects of thrombin on gene expression and DNA synthesis in 1321N1 astrocytoma cells. 893 Aug 92

We previously demonstrated that in white fat cell precursors alpha2-adrenoceptor stimulation lead to the phosphorylation of p44 and p42 mitogen-activated protein kinases and an increase in cell number. Regulation of cell adhesion and cell cytoskeleton plays a crucial role in the control of cell growth by various growth factors. Here, we report that in mouse 3T3F442A preadipocytes expressing 2500 fmol/mg protein of the human alpha2C10-adrenoceptor (alpha2AF2 cells), alpha2-adrenergic stimulation rapidly restored the spreading of cells previously retracted by serum withdrawal. This effect was pertussis toxin sensitive and was blocked by pretreatment of the cells with dihydrocytochalasin B (a blocker of actin polymerization), genistein (a tyrosine kinase inhibitor), or agents that increase cell cAMP content. Spreading was accompanied by cell membrane ruffling, formation of lamelipodia and filipodia, appearance of focal adhesion plaques, and induction of actin stress fibers. alpha2-Adrenergic stimulation also lead to a rapid Gi- and actin-dependent tyrosine phosphorylation of the pp125 focal adhesion kinase (FAK) as well as of the p42 and p44 mitogen-activated protein kinases. alpha2-Adrenergic-dependent spreading and FAK and mitogen-activated protein kinase phosphorylation were also observed in 3T3F442A preadipocytes permanently expressing 20 fmol/mg protein of the human alpha2C10-adrenoceptor (alpha2AF3 cells) as well as in BFC-1beta preadipocytes, which constitutively express 25 fmol/mg protein of mouse alpha2A-adrenoceptors. In BFC-1beta preadipocytes, alpha2-adrenergic-dependent spreading and pp125FAK phosphorylation were counteracted by beta-adrenergic stimulation. Our results suggest that alpha2-adrenergic control of actin polymerization and focal adhesion assembly could play a crucial role in the regulation of preadipocyte growth by the sympathetic nervous system.
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PMID:alpha2-Adrenoceptor stimulation promotes actin polymerization and focal adhesion in 3T3F442A and BFC-1beta preadipocytes. 894 Mar 38

The influence of hypo-osmotic cell swelling on the activity of the mitogen-activated protein (MAP) kinases Erk-1 and Erk-2 (where Erk stands for extracellular signal-regulated protein kinase) was studied in cultured rat astrocytes. Hypo-osmotic treatment led within 10 min to an increased activity of Erk-1 and Erk-2, which became maximal at 20 min and returned to the basal level within 60 min. Moreover, exposure to hypo-osmotic conditions induced a biphasic increase in cytosolic Ca2+ concentration ([Ca2+]i): a rapid peak-like increase was followed by a sustained plateau. The absence of extracellular Ca2+ completely abolished Erk activation as well as the plateau of the [Ca2+]i response after hypo-osmotic stimulation. Application of wortmannin and agents to elevate intracellular cAMP levels also completely blocked Erk activation but were without effect on the biphasic [Ca2+]i response to hypo-osmotic treatment of the cells, suggesting a role of PtdIns 3-kinase and the Ras/Raf pathway downstream of the calcium signal. Protein kinase C (PKC) and Ca2+/calmodulin (CaM)-dependent kinases are unlikely to play a role in the hypo-osmolarity-induced signalling towards MAP kinases, as revealed by the blockage of PKC and CaM kinases. Inhibition of tyrosine kinases, pertussis-toxin- or cholera-toxin-sensitive G-proteins and phospholipase C had no effect on the [Ca2+]i response; the Erk response to hypo-osmolarity was also largely unaltered. This is different from the swelling-induced MAP kinase activation in hepatocytes, which was shown to occur via a calcium-independent but G-protein- and tyrosine kinase-dependent mechanism. Thus osmo-signalling towards MAP kinases might exhibit cell-type-specific features.
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PMID:Calcium-dependent activation of Erk-1 and Erk-2 after hypo-osmotic astrocyte swelling. 894 82

Rat-1 fibroblasts were used to study the role of the sustained activation of extracellular signal-regulated kinase 1 (ERK1) in lysophosphatidic acid (LPA)-stimulated mitogenic signalling. Mitogenic doses of LPA, like serum, stimulated biphasic, sustained, ERK activation that persisted towards the G1/S boundary. The EC50 for LPA-stimulated ERK activation after 10 min, the time of peak response, was 2 orders of magnitude to the left of that for the sustained response after 3 h or that for DNA synthesis after 22 h, with the result that non-mitogenic doses stimulated a maximal peak response but no second phase. To complement these studies, we examined the role of different signal pathways in regulating the sustained and acute phases of ERK activation using defined biochemical inhibitors and mimetics. Activation of protein kinase C and Ca2+ fluxes played a minor and transient role in regulation of ERK1 activity by LPA in Rat-1 cells. Sustained ERK1 activation stimulated by LPA was completely inhibited by pertussis toxin, whereas the early peak response was only partly affected; this is correlated with the specific inhibition of LPA-stimulated DNA synthesis by pertussis toxin. The selective tyrosine kinase inhibitor herbimycin A completely inhibited sustained ERK1 activation by LPA but, again, the early phase of the response was only partially inhibited. In addition, low doses of staurosporine inhibited ERK1 activation by LPA. The effects of herbimycin A and staurosporine were selective for the response to LPA but did not affect that to epidermal growth factor. The results suggest a strong correlation between sustained ERK1 activation and DNA synthesis in LPA-stimulated Rat-1 cells. Furthermore, the two discrete phases of ERK activation by LPA are regulated by a combination of at least two different signalling pathways; the sustained activation of ERK1 in Rat-1 cells proceeds via a G1- or Gzero-mediated pathway which may also involve a tyrosine kinase.
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PMID:Kinetic and biochemical correlation between sustained p44ERK1 (44 kDa extracellular signal-regulated kinase 1) activation and lysophosphatidic acid-stimulated DNA synthesis in Rat-1 cells. 894 93

We have previously shown that 24,25-(OH)2D3 plays a major role in resting zone (RC) chondrocyte differentiation and that this vitamin D metabolite regulates protein kinase C (PKC). The aim of the present study was to identify the signal transduction pathway used by 24,25-(OH)2D3 to stimulate PKC activation. Confluent, fourth passage RC cells from rat costochondral cartilage were used to evaluate the mechanism of PKC activation. Treatment of RC cultures with 24,25-(OH)2D3 for 90 min produced a dose-dependent increase in diacylglycerol (DAG). Addition of R59022, a diacylglycerol kinase inhibitor, significantly increased PKC activity in cultures treated with 24,25-(OH)2D3. Addition of dioctanoylglycerol (DOG) to plasma membranes isolated from RC increased PKC activity 447-fold. Addition of pertussis toxin or cholera toxin to control cultures elevated basal PKC activity. When added together with 10(-9) M 24,25-(OH)2D3, there was an additive effect on PKC activity but in cultures treated with 10(-8) M 24,25-(OH)2D3, only the hormone-dependent stimulation of PKC was observed. The phospholipase C inhibitor, U73-122, had no effect on PKC activity, indicating that the DAG produced in response to 24,25-(OH)2D3 is not derived from phosphatidylinositol. Addition of the tyrosine kinase inhibitor, genistein, also had no effect on 24,25-(OH)2D3-stimulated PKC, further supporting the hypothesis that phospholipase C is not involved in the mechanism and that phospholipase D is responsible for the increase in DAG production. Phospholipase A2 inhibitors, quinacrine and AACOCF3, and the cyclooxygenase inhibitor indomethacin increased PKC activity in the RC cultures. Exogenous PGE2, one of the downstream products of phospholipase A2 action, inhibited PKC activity. These results suggest that 24,25-(OH)2D3 regulates PKC activity by two distinct phospholipid-dependent mechanisms: production of DAG via phospholipase D and inhibition of the production of PGE2 via inhibition of phospholipase A2 and cyclooxygenase.
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PMID:24,25-(OH)2D3 regulates protein kinase C through two distinct phospholipid-dependent mechanisms. 895


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