EC:3.1.4.3 - FACTA Search

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Query: EC:3.1.4.3 (phospholipase C)
18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mitogen-activated protein kinases (MAPKs) are activated upon a variety of extracellular stimuli in different cells. In macrophages, colony-stimulating factor 1 (CSF-1) stimulates proliferation, while bacterial lipopolysaccharide (LPS) inhibits cell growth and causes differentiation and activation. Both CSF-1 and LPS rapidly activate the MAPK network and induce the phosphorylation of two distinct ternary complex factors (TCFs), TCF/Elk and TCF/SAP. CSF-1, but not LPS, stimulated the formation of p21ras. GTP complexes. Expression of a dominant negative ras mutant reduced, but did not abolish, CSF-1-mediated stimulation of MEK and MAPK. In contrast, activation of the MEK kinase Raf-1 was Ras independent. Treatment with the phosphatidylcholine-specific phospholipase C inhibitor D609 suppressed LPS-mediated, but not CSF-1-mediated, activation of Raf-1, MEK, and MAPK. Similarly, down-regulation or inhibition of protein kinase C blocked MEK and MAPK induction by LPS but not that by CSF-1. Phorbol 12-myristate 13-acetate pretreatment led to the sustained activation of the Raf-1 kinase but not that of MEK and MAPK. Thus, activated Raf-1 alone does not support MEK/MAPK activation in macrophages. Phosphorylation of TCF/Elk but not that of TCF/SAP was blocked by all treatments that interfered with MAPK activation, implying that TCF/SAP was targeted by a MAPK-independent pathway. Therefore, CSF-1 and LPS target the MAPK network by two alternative pathways, both of which induce Raf-1 activation. The mitogenic pathway depends on Ras activity, while the differentiation signal relies on protein kinase C and phosphatidylcholine-specific phospholipase C activation.
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PMID:Ras-dependent and -independent pathways target the mitogen-activated protein kinase network in macrophages. 779 56

Chronic treatment of mice with insulin results in hypertrophy and hyperplasia of the parotid and submandibular glands (Wang et al.: 1994, Proc Soc Exp Biol Med 205:353-361). Hyperplasia of the parotid gland is mediated by the elevation of tyrosine phosphorylation of phospholipase C gamma, p21ras-GTPase activating protein (p21ras-GAP) and phosphatidylinositol 3-kinase. These proteins were found to be associated with the insulin receptor substrate-1 most likely through src homology (SH2) domains of these proteins. There was also a transient increase in intracellular cAMP and protein kinase A during the first day of treatment which declined by Day 3 to near control values. Protein kinase C activity, on the other hand, remained elevated for the 3-day injection regimen. Thus, acinar cell proliferation induced by insulin requires activation of many of the same signaling components as other tyrosine kinase possessing growth factor receptors.
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PMID:Activation of SH2-containing proteins by insulin in proliferating mouse parotid gland acinar cells. 780 Jun 88

CONTENTS. T-cell activation--Structure of the T-cell antigen receptor--Modular organisation of the T-cell antigen receptor--T-cell antigen receptor-coupled signaling pathways: Activation of protein-tyrosine kinase by the T-cell antigen receptor; Signal transduction in lymphoid cells involves several protein-tyrosine kinases in parallel; Regulation of T-cell antigen receptor signaling by the phosphoprotein phosphatase CD45--Consequences of T-cell antigen receptor-induced tyrosine phosphorylation: Activation of phosphoinositol-lipid-turnover pathways--Activation of phospholipase C-gamma-1: p59fyn or p56lck?--G-protein motif of CD3-gamma: relevance for signal transduction--Association of lipid kinase with the T-cell antigen receptor--Intracellular signaling by phospholipid metabolites and calcium: activation of protein kinase C--Protein kinase C isoenzymes--Heterogenity of protein kinase C and mode of activation--Phospholipid-derived mediators in activation of protein kinase C in T-cells--Role of phospholipase D metabolites in activation of protein kinase C--Polyunsaturated fatty acids and lysophosphatidylcholine as activators of protein kinase C--Potein kinase C and p21ras function in interdependent and distinct signaling pathways during T-cell activation--Raf-1 kinase: regulator or target of protein kinase C?--Summary and perspectives.
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PMID:T-cell antigen receptor-induced signal-transduction pathways--activation and function of protein kinases C in T lymphocytes. 788 88

B lymphocyte antigen receptors, membrane immunoglobulins (mIg), function in focusing and internalization of antigen for subsequent presentation to T cells and in transmembrane transduction of signals leading to cell activation, anergy, or deletion. Until quite recently, the ability of this receptor to transduce signals in spite of a virtual lack of cytoplasmic structure, left a significant gap in our understanding of how it is coupled to cytoplasmic signal propagators. Studies conducted during the past five years have defined a mIg-associated protein complex homologous to the CD3 complex associated with the T cell antigen receptor. Components of this disulfide linked heterodimeric complex, Ig-alpha and Ig-beta, contain an approximately 26 residue sequence motif termed ARH1, also known as TAM, which binds to cytoplasmic effectors, including src-family tyrosine kinases, and contains all structural information needed for signal transduction. Receptor associated src-family kinases which are activated following receptor cross-linking, also associate with downstream effectors, including phospholipase C gamma (PLC gamma), p21ras. GTPase activating protein (GAP), phosphatidylinositol 3-kinase (PI3-k) and microtubule associate protein kinase (MAPk2). In some cases, these associations are induced by receptor cross-linking and lead directly to effector activation. The current literature indicates that these interactions may occur in sequence and culminate in the activation of three major pathways of signal propagation including those mediated by PLC gamma, p21ras and PI3-k. This chapter reviews various molecular aspects of the B cell antigen receptor complex, including extended structure of the complex, and receptor-effector interactions and their biologic consequences. Finally, an integrated model of antigen receptor signaling is presented.
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PMID:Signal transduction by the B cell antigen receptor and its coreceptors. 801 Dec 88

Lysophosphatidic acid (LPA) is a platelet-derived phospholipid that serves as a mitogen for fibroblasts. LPA activates its own G protein-coupled receptor(s) leading to stimulation of phospholipase C and inhibition of adenylate cyclase. Furthermore, LPA rapidly activates p21ras through a pertussis toxin-sensitive pathway. In this study, we have examined LPA-induced protein tyrosine phosphorylation in Rat-1 fibroblasts. LPA action was compared with that of endothelin, which is a stronger activator of phospholipase C than LPA but fails to activate p21ras and to stimulate DNA synthesis in these cells. LPA and, more effectively, endothelin rapidly stimulate tyrosine phosphorylation of proteins of 110-130, 95, and 65-75 kDa. The effect of LPA is dose- and time-dependent, being half-maximal at 3-30 nM and peaking after 2-5 min. Among the 110-130-kDa group of phosphotyrosyl proteins is the 125-kDa "focal adhesion kinase" (p125FAK) but not the 120-kDa p21ras GTPase-activating protein. Furthermore, LPA, like epidermal growth factor, causes tyrosine phosphorylation and activation of the p42/p44 mitogen-activated protein (MAP) kinases, paralleling p21ras activation. In contrast, endothelin fails to phosphorylate MAP kinase. Treatment of the cells with pertussis toxin blocks LPA-induced MAP kinase phosphorylation without affecting the other tyrosine phosphorylations. The kinase inhibitor staurosporine (1 microM) blocks LPA-induced, but not epidermal growth factor-induced, activation of p21ras and MAP kinase, consistent with an intermediate protein kinase linking the LPA receptor to p21ras activation. The results support a model in which LPA-induced phosphorylation of MAP kinase is mediated by p21ras, and tyrosine phosphorylation of the other substrates, including p125FAK, is associated with phospholipase C activation.
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PMID:Protein tyrosine phosphorylation induced by lysophosphatidic acid in Rat-1 fibroblasts. Evidence that phosphorylation of map kinase is mediated by the Gi-p21ras pathway. 827 65

In the present study, we have identified several proteins in Swiss 3T3 cells that are phosphorylated on tyrosine in response to platelet-derived growth factor (PDGF) and exhibit an unusual bell-shaped dose-response curve with a maximum at 5 ng/ml platelet-derived growth factor (PDGF). These proteins include two that are associated with focal adhesions, namely the focal adhesion kinase (p125FAK), a novel cytosolic tyrosine kinase, and paxillin. At low concentrations of PDGF (1-5 ng/ml), these proteins are the predominant tyrosine-phosphorylated species. At 30 ng/ml PDGF, however, there was no stimulation of their phosphorylation over control levels. In contrast, tyrosine phosphorylation of previously described substrates of the PDGF receptor tyrosine kinase, namely the p21ras GTPase-activating protein, p120, phosphatidyl inositol 3' kinase, and phospholipase C gamma exhibited sigmoidal dose-response curves with PDGF and were all efficiently phosphorylated on tyrosine at 30 ng/ml PDGF. Cytochalasin D, which disrupts the actin cytoskeleton, completely inhibited the tyrosine phosphorylation of p125FAK and paxillin by PDGF. Examination of the actin cytoskeleton after stimulation of cells with different concentrations of PDGF revealed that at 5 ng/ml PDGF, actin appears in stress fibers and in membrane ruffles, while at 30 ng/ml, PDGF disrupts the actin cytoskeleton. Bombesin stimulates actin stress fiber formation with no evidence of disruption of stress fibers at high concentrations. When cells were stimulated with bombesin (10 nM) in the presence of 30 ng/ml PDGF, however, the actin cytoskeleton was completely disrupted. Further, the tyrosine phosphorylation of both p125FAK and paxillin induced by bombesin (10 nM) was completely prevented when cells were stimulated with bombesin in the presence of 30 ng/ml PDGF. We propose that the inhibitory limb in the bell-shaped dose-response curve of PDGF and the novel cross-talk between PDGF and bombesin on tyrosine phosphorylation may be explained by the ability of PDGF at 30 ng/ml to disrupt the actin cytoskeleton.
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PMID:Platelet-derived growth factor modulation of focal adhesion kinase (p125FAK) and paxillin tyrosine phosphorylation in Swiss 3T3 cells. Bell-shaped dose response and cross-talk with bombesin. 827 72

We examined the effect of overexpression of growth factor-regulated second messenger enzymes, alone and in combination, on transformation of NIH3T3 cells. Signal transducers included phospholipase C-gamma (PLC-gamma), protein kinase C-gamma (PKC-gamma), and two proto-oncogenes, c-H-ras and c-raf-1. Three of these proteins, PLC-gamma, PKC-gamma and Raf-1, did not transform NIH3T3 cells alone or in combination. c-H-ras, which under its own promoter control has low transforming activity, also did not cooperate with PLC-gamma or PKC-gamma. In contrast, the combination of normal or oncogenic p21 H-Ras with the Raf-1 kinase dramatically increased transformation efficiency. The level of Ras protein required for transformation was reduced in Raf-1 co-transfectants, implying that, at low levels of p21 Ras, p74 Raf-1 is rate limiting. As transformation by Ras depends on jun-mediated transcriptional events, we also examined H-ras and c-raf-1 cooperation in transcriptional transactivation of TPA-responsive element (TRE)-dependent reporters. Like the H-ras/c-raf-1 cooperation in transformation, we observed this synergistic stimulation of TRE-dependent transcription. This pathway for transformation and transcriptional activation by increased levels of normal Ras and Raf may be important in tumors that show overexpression but lack mutationally activated forms of these two proto-oncogenes.
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PMID:H-ras and raf-1 cooperate in transformation of NIH3T3 fibroblasts. 836 57

It is well known that external load plays a critical role in determining cardiac muscle mass and its phenotype, but little is known as to how mechanical load is transduced into intracellular signals regulating gene expression. To address this question we analyzed the 'mechano-transcription' coupling process using an in vitro model of load-induced cardiac hypertrophy, in which a stretch of rat cardiac myocytes, grown on a deformable substrate, causes a rapid induction of immediate-early genes followed by growth (hypertrophic) response. We report here that cell stretch rapidly activates a plethora of second messenger pathways, including tyrosine kinases, p21ras, mitogen-activated protein (MAP) kinases, S6 kinases (pp90RSK), protein kinase C, phospholipase C, phospholipase D, and probably the phospholipase A2 and P450 pathways. In contrast, the cAMP pathway is not activated significantly by stretch. The signals generated by these second messengers appear to converge into activation of the p67SRF-p62TCF complex via the serum response element, causing induction of c-fos. The stretch response may involve an autocrine or paracrine mechanism, because stretch-conditioned medium, when transferred to non-stretched myocytes, mimicked the effect of stretch. These results indicate that mechanical load causes rapid activation of multiple second messenger systems, which may in turn initiate a cascade of hypertrophic response of cardiac myocytes.
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PMID:Mechanical stretch rapidly activates multiple signal transduction pathways in cardiac myocytes: potential involvement of an autocrine/paracrine mechanism. 838 10

Membrane Ig (mIg) functions in binding and internalization of Ag for subsequent processing and presentation to T cells, as well as in transmembrane transduction of signals that lead to cell activation, proliferation, and differentiation. Tyrosine kinase activation and subsequent phosphatidylinositol hydrolysis and Ca2+ mobilization are clearly important intermediary events in receptor-mediated B cell activation. However, many details of the cellular signal transduction pathways utilized by this receptor are not resolved. Recent studies that demonstrated co-capping of mIg and the proto-oncoprotein p21ras suggested that this low m.w. GTP-binding protein may function in mIg-mediated signal transduction. p21ras has been implicated in some but not all protein tyrosine kinase/phospholipase C involving signaling pathways. To explore the potential role of p21ras in B cell Ag receptor-mediated signaling, we assessed the effect of Ag receptor ligation on the proportion of p21ras in the active GTP-bound state. We present evidence that p21ras is activated by mIgM and mIgG cross-linking by anti-receptor antibodies as well as by Ag. Depending upon the stimulus employed, this response is detectable within 1 min and occurs with similar kinetics as inductive protein tyrosine phosphorylation and Ca2+ mobilization. Ag dose dependence of this response is similar to that of inductive protein tyrosine phosphorylation. In these cells p21ras is also activated by PMA suggesting that p21ras activation after receptor cross-linking may be mediated by an effector molecule that functions downstream from protein kinase C (PKC). However, the kinetics of p21ras activation after mIg cross-linking are inconsistent with the possibility that PKC functions as the sole mediator of p21ras activation in this system. Finally, under conditions in which the PKC inhibitor calphostin C blocks PMA-induced p21ras activation, it does not inhibit Ag-induced p21ras activation. These data suggest that PKC effector mechanisms play a negligible role in p21ras activation during mIg-mediated signaling.
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PMID:B cell antigen receptor cross-linking triggers rapid protein kinase C independent activation of p21ras1. 840 14

The family of serotonin 5-HT2 receptors stimulates the phospholipase C second messenger pathway via the alpha subunit of the Gq GTP-binding protein. Here, we show that agonist stimulation of the 5-HT2B receptor subtype stably expressed in the mouse fibroblast LMTK- cell line causes a rapid and transient activation of the proto-oncogene product p21ras as measured by an increase in GTP-bound Ras in response to serotonin. Furthermore, 5-HT2B receptor stimulation activates p42mapk/p44mapk (ERK2/ERK1) mitogen-activated protein kinases as assayed by phosphorylation of myelin basic protein. Antibodies against p21ras, Galphaq, -beta, or -gamma2 subunits of the GTP-binding protein inhibit MAP kinase-dependent phosphorylation. The MAP kinase activation is correlated with a stimulation of cell division by serotonin. In addition to this mitogenic action, transforming activity of serotonin is mediated by the 5-HT2B receptor since its expression in LMTK- cells is absolutely required for foci formation and for these foci to form tumors in nude mice. Finally, we detected expression of the 5-HT2B receptor in spontaneous human and Mastomys natalensis carcinoid tumors and, similar to the 5-HT2B receptor transfected cells, the Mastomys tumor cells are also responsive to serotonin with similar coupling to p21ras activation.
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PMID:Ras involvement in signal transduction by the serotonin 5-HT2B receptor. 862 13

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