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)

Stimulation of division of Balb/c3T3 cells by epidermal growth factor (EGF) and/or insulin is inhibited by pertussis toxin. The G-protein involvement in this response includes the growth factor receptor-induced translocation of the alpha-subunit of Gi (Gi alpha) to the nucleus, where Gi alpha binds specifically to chromatin of dividing cells. This paper reports the first data of studies on the mode of interaction of tyrosine kinase growth factor receptors with Gi alpha, and the mechanism by which Gi affects cell proliferation. When Gi alpha was immunoprecipitated from Triton X-100 extracts of Balb/c3T3 cells, several other proteins were co-precipitated. The major proteins, of 110,000, 60,000 and 36,000 M(r), were not directly recognized by the Gi alpha antibody, showing that Gi alpha was in a complex with these proteins. The 36,000 M(r) protein was recognized by G beta-common antiserum, so confirming its identity as Gi beta. The 36,000 M(r) protein was phosphorylated in cells activated for 20 h with platelet-derived growth factor, epidermal growth factor and insulin, but not after 3 min or 1 h of stimulation. Both Gi alpha and G beta-common antibodies precipitated the phosphorylated 36,000 protein. Gi beta phosphorylation was similarly observed in response to activation by EGF alone for 20 h, but to a lesser extent. Phosphotyrosine antibodies also precipitated a 36,000 M(r) phosphorylated protein from growth factor-activated cells, suggesting that Gi beta may be phosphorylated on tyrosine. Therefore, Gi beta phosphorylation appears to represent a late event after activation of cells by tyrosine kinase growth factor receptors. We are currently examining the role of this event in signal transduction, particularly in relation to control of nuclear responses.
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PMID:Gi alpha and Gi beta are part of a signalling complex in Balb/c3T3 cells: phosphorylation of Gi beta in growth-factor-activated fibroblasts. 768 Aug 79

Angiotensin II has been demonstrated to act as a growth factor in rat cardiac fibroblasts. However, the signaling events that lead to fibroblast cell growth in response to angiotensin II remain to be elucidated. This study was designed to determine whether angiotensin II stimulated tyrosine phosphorylation of proteins in cardiac fibroblasts. Immunoblot analysis demonstrated rapid tyrosine phosphorylation of distinct substrates of 125, 95, 46-60, and 44 kDa in response to 10 nM angiotensin II. Tyrosine phosphorylation was maximal at 5 min and persisted for at least 180 min. Additional tyrosine-phosphorylated proteins of 185, 145, and 85 kDa were detected in response to 10 ng/ml platelet-derived growth factor BB. A cluster of 75-80-kDa proteins were phosphorylated in response to angiotensin II, phorbol ester, and platelet-derived growth factor. Angiotensin II-induced tyrosine phosphorylation was unaffected by phorbol ester-sensitive protein kinase C down-regulation and could be partially blocked by pertussis toxin pretreatment. Angiotensin II stimulation resulted in increased cytosolic tyrosine kinase activity which was recovered by immunoprecipitation. Immunoblot analysis demonstrated tyrosine phosphorylation of p44MAPK, and, in addition, we demonstrated for the first time tyrosine phosphorylation of p125FAK, p46SHC, and p56SHC in response to angiotensin II. The finding that angiotensin II and platelet-derived growth factor stimulated tyrosine phosphorylation of p46SHC and p56SHC suggested that this protein may serve as a common tyrosine kinase substrate in the mitogenic signaling cascade induced by G-protein-coupled receptors and growth factors and is consistent with the hypothesis that angiotensin II-induced tyrosine phosphorylation is involved in mitogenic signaling pathways in neonatal rat cardiac fibroblasts.
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PMID:Angiotensin II-induced protein tyrosine phosphorylation in neonatal rat cardiac fibroblasts. 803 31

The involvement of a Gi- or G(o)-related G-protein as a regulator of the growth of guinea pig thoracic aorta smooth muscle (TASM) cells was studied by investigating the effects of pertussis toxin (PTX) on the growth of these cells. PTX treatment decreased the growth rate of TASM cells by 70-100%. This effect was apparent within 24 h after exposure to the toxin and persisted for at least 10 days after starting the treatment. The effect of the toxin appeared to be the result of the inactivation of a G-protein because 1) TASM cell membranes contained a 40-kilodalton substrate for the toxin in in vitro assays that was absent in membranes prepared from cells pretreated with toxin; and 2) the effect required both the enzymatic component (A-protomer) of the toxin that inactivates Gi/G(o)-related G-proteins and its B-oligomer necessary for binding and internalization of the A-protomer. The effect of the toxin was not due to an increased level of intracellular cAMP brought about by inactivation of a G-protein that normally inhibits adenylyl cyclase activity. Further, the toxin did not merely make some unknown mitogen rate limiting, because neither increasing concentrations of serum in the growth medium nor supplementation with platelet-derived growth factor could overcome its inhibition of TASM cell growth. Instead, some unknown process regulated by a PTX-sensitive G-protein appears to be required for the normal growth of these cells.
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PMID:The effect of pertussis toxin on the growth of vascular smooth muscle cells stimulated by serum or platelet-derived growth factor. 811 69

Neuropeptide Y (NPY) attenuated angiotensin II (AII)-or bradykinin (BK)-induced Ca2+ release from intracellular stores and inhibited forskolin-stimulated cAMP accumulation and omega-conotoxin-sensitive high K(+)-induced Ca2+ influx in the human neuroblastoma cell line SMS-KAN. All three NPY actions were mediated via Y2 receptors. Pretreatment with pertussis toxin completely abolished all of the NPY actions. Activation or down-regulation of protein kinase C had no effect on any NPY-mediated effect; herbimycin A, a tyrosine kinase inhibitor, only abolished the inhibitory effect of NPY on AII- or BK-induced Ca2+ mobilization. Herbimycin A also blocked platelet-derived growth factor-induced Ca2+ mobilization, which involves tyrosine kinase activation, and there was a good correlation in the concentration dependency between the two effects of herbimycin A, strongly suggesting that its ability to cancel the NPY effect is due to inhibition of tyrosine kinase activity. NPY attenuated AII- or BK-induced inositol 1,4,5-trisphosphate production, and herbimycin A reversed this NPY effect. These results provide the first evidence that Y2 receptors negatively couple to AII- or BK-induced phosphoinositide turnover leading to Ca2+ mobilization through pertussis toxin-sensitive GTP-binding protein(s). Inhibition of phospholipase C-beta activity by NPY seems to be mediated by activation of protein-tyrosine kinase or phosphotyrosine-containing protein(s).
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PMID:Y2 receptors for neuropeptide Y are coupled to three intracellular signal transduction pathways in a human neuroblastoma cell line. 813 19

Endothelins (ET-1, -2, -3) display pleiotropic activities, by signalling through G-protein-coupled membrane receptors. We show here that ET-1 and ET-3 stimulate within minutes the tyrosine phosphorylation of a 42 kDa protein (p42) in primary cultures of mouse embryo astrocytes, but not in any of two subclones of rat astrocytoma C6 cells. This effect, measured by anti-phosphotyrosine immunoblotting of cell extracts, was also observed in response to bradykinin, platelet-derived growth factor, the phorbol ester phorbol 12-myristate 13-acetate and the G-protein activator fluoroaluminate. Pretreatment of cells with pertussis toxin, which inactivates Gi/G(o) proteins, did not affect these responses. However, down-regulation of protein kinase C completely blocked the response to phorbol ester and fluoroaluminate and at least partially impaired the ET-1-stimulated phosphorylation of p42. We have identified p42 as p42mapk, a mitogen-activated protein (MAP) kinase, on the basis of the following data: by sequential immunoblotting with antiphosphotyrosine and anti-MAP kinase antibodies, (i) similar kinetics are observed for p42 phosphorylation and the decrease in p42mapk electrophoretic mobility, likely corresponding to its tyrosine/threonine phosphorylation [de Vries-Smits, Boudewijn, Burgering, Leevers, Marshall and Bos (1992) Nature (London) 357, 602-604]; (ii) p42 and the shifted form of p42mapk co-migrate on SDS/PAGE; (iii) the myelin-basic-protein kinase activity of p42mapk is stimulated by ET-1, in parallel with the tyrosine phosphorylation of p42. In conclusion, these findings strongly suggest that endothelins can stimulate the tyrosine phosphorylation and activation of p42mapk in astrocytes, via pertussis-toxin-insensitive G protein and protein kinase C-dependent and -independent pathways.
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PMID:Endothelins stimulate tyrosine phosphorylation and activity of p42/mitogen-activated protein kinase in astrocytes. 834 18

In common with many other animal cells in culture, BHK21, CHO and NIH-3T3 cells adopt bizarre stellate or arborized shapes when exposed, in the absence of serum, to agents which increase cytoplasmic cyclic AMP (cAMP). Dibutyryl cAMP, 3-isobutyl-1-methylxanthine, 5'-deoxy-5'-methylthioadenosine, cholera toxin and the invasive adenylate cyclase from Bordetella pertussis all induce similar shapes. Time lapse video recording of BHK21 cells spreading on fibronectin shows that stellate shapes are generated by outgrowth of neurite-like processes led by small fans of ruffling membrane. These structures stain strongly for F actin, and their outgrowth is completely inhibited by cytochalasin D. Thus if stellation is caused by microfilament depletion, this must be selective for subsets of microfilaments. We have quantified the shape changes of BHK21 cells using the parameter dispersion. They are prevented by low concentrations (1% by volume and below) of bovine sera. The inhibitory component of foetal bovine serum acts humorally, behaves as a macromolecule and is itself inhibited by suramin, but platelet-derived growth factor, insulin, vasopressin and bradykinin are inactive. The inhibitory activity of serum may be due to phospholipids, since it can be replaced by lysophosphatidic acid in the presence of serum albumin.
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PMID:Shapes of cells spreading on fibronectin: measurement of the stellation of BHK21 cells induced by raising cyclic AMP, and of its reversal by serum and lysophosphatidic acid. 838 76

Tyrosine kinase inhibitors such as erbstatin and lavendustin derivative inhibited platelet-derived growth factor (PDGF)- and bombesin-induced inositol phosphate formation and phospholipase C (PLC) activation in quiescent NIH3T3 cells. However, bombesin-induced PLC activation was only partially inhibited by tyrosine kinase inhibitors, whereas PDGF-induced activation was completely. Moreover, although bombesin-induced PLC activation was partially inhibited by pertussis toxin alone, this toxin inhibited almost completely in the presence of tyrosine kinase inhibitors. Thus, tyrosine kinase was suggested to be involved in PDGF- and bombesin-induced PLC activation in a different manner.
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PMID:Involvement of tyrosine kinase in growth factor-induced phospholipase C activation in NIH3T3 cells. 844 36

In order to study the regulation of the ribosomal protein S6 kinase, p70s6k, by G protein-coupled receptors, Rat-1 fibroblasts were stably transfected with two versions of the alpha2 adrenergic receptor. Stimulation of clone 1C cells, which express 3.5 pmol/mg of protein of the human alpha2C10 receptor, with the alpha2 agonist UK 14304 led to a transient increase in p70s6k activity. UK 14304 also activated p70s6k in a clone expressing the porcine alpha2A receptor (400 fmol/mg of protein). Lysophosphatidic acid (LPA), acting through endogenous G protein-coupled receptors, also activated p70s6k in alpha2 receptor-transfected and in nontransfected cells. Activation of p70s6k by both UK 14304 and LPA was accompanied by increased phosphorylation of the protein. Rapamycin completely blocked the activation of p70s6k by both agents. Activation of p70s6k by UK 14304 and by LPA, but not by platelet-derived growth factor (PDGF), was blocked by preincubation of cells with pertussis toxin. Wortmannin, a selective inhibitor of phosphoinositide (PI) 3-OH kinase, prevented activation of p70s6k by UK 14304, LPA, and PDGF. These data indicate that p70s6k is regulatable by Gi-coupled receptor agonists in a pertussis toxin-sensitive fashion in Rat-1 fibroblasts and that activation of p70s6k by such agents appears to involve an isoform of PI 3-kinase.
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PMID:Wortmannin-sensitive activation of p70s6k by endogenous and heterologously expressed Gi-coupled receptors. 862 77

The small GTPases of the Rho family play a key role in a number of signaling pathways activated by lysophosphatidic acid (LPA). However, little is known concerning the mechanism of regulation of these proteins. In this study we demonstrate that in Swiss 3T3 fibroblasts, LPA induces a sustained, time-dependent relocalization of RhoA to the Triton X-100-soluble low speed membrane fraction, which can be reversed by removal of LPA from the medium. Translocation was only observed with micromolar concentrations of LPA and was inhibited by pretreating the cells with pertussis toxin but not with tyrosine kinase inhibitors. LPA also induced translocation of CDC42Hs to the membranes but had no effect on the distribution of Rac1, RhoB, or Rho-GDI. Translocation of RhoA was also induced by endothelin-1. Conversely, platelet-derived growth factor did not cause the translocation of RhoA to any membrane fraction but stimulated relocalization of Rac1 to the high speed membrane fraction. Significantly, incubation of cell lysates with guanosine 5'-O-(thiotriphosphate) was sufficient to translocate RhoA, Rac1, and CDC42Hs from the cytosol to the membranes, whereas incubation with GDP had the opposite effect. These data suggest that the translocation of the Rho family proteins to the membrane fraction is controlled by their activation state and that agonists show selectivity in inducing the activation/translocation of these proteins.
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PMID:Differential translocation of rho family GTPases by lysophosphatidic acid, endothelin-1, and platelet-derived growth factor. 895 54

The experiments presented here were designed to examine the contribution of p125 focal adhesion kinase (p125FAK) tyrosine phosphorylation to the activation of the mitogen-activated protein kinase cascade induced by bombesin, lysophosphatidic acid (LPA), and platelet-derived growth factor (PDGF) in Swiss 3T3 cells. We found that tyrosine phosphorylation of p125FAK in response to these growth factors is completely abolished in cells treated with cytochalasin D or in cells that were suspended in serum-free medium for 30 min. In marked contrast, the activation of p42mapk by these factors was independent of the integrity of the actin cytoskeleton and of the interaction of the cells with the extracellular matrix. The protein kinase C inhibitor GF 109203X and down-regulation of protein kinase C by prolonged pretreatment of cells with phorbol esters blocked bombesin-stimulated activation of p42mapk, p90rsk, and MAPK kinase-1 but did not prevent bombesin-induced tyrosine phosphorylation of p125FAK. Furthermore, LPA-induced p42mapk activation involved a pertussis toxin-sensitive guanylate nucleotide-binding protein, whereas tyrosine phosphorylation of p125FAK in response to LPA was not prevented by pretreatment with pertussis toxin. Finally, PDGF induced maximum p42mapk activation at concentrations (30 ng/ml) that failed to induce tyrosine phosphorylation of p125FAK. Thus, our results demonstrate that p42mapk activation in response to bombesin, LPA, and PDGF can be dissociated from p125FAK tyrosine phosphorylation in Swiss 3T3 cells.
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PMID:Dissociation of mitogen-activated protein kinase activation from p125 focal adhesion kinase tyrosine phosphorylation in Swiss 3T3 cells stimulated by bombesin, lysophosphatidic acid, and platelet-derived growth factor. 897 Jan 51

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