Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

When membrane Ig (mIg) on the surface of B lymphocytes is cross-linked using anti-Ig antibodies, the enzyme phospholipase C (PLC) is activated to cleave inositol phospholipids. Tyrosine kinase inhibitors have been reported to inhibit this event. Therefore, we investigated the effect of cross-linking of mIg on the state of tyrosine phosphorylation of PLC activity in two murine B cell lines and in normal resting mouse B cells. Proteins from lysates of stimulated or unstimulated cells were immunoprecipitated with an antiphosphotyrosine antibody and subsequently assayed for PLC activity. Treatment of the B cell line WEHI-231 with anti-IgM led within 15 to 30 s to a 10- to 20-fold increase in tyrosine-phosphorylated PLC activity. Inositol trisphosphate generation by WEHI-231 cells stimulated under the same conditions demonstrated similar kinetics. Normal resting B cells treated with anti-IgM or anti-IgD demonstrated 2.5- and 4-fold increases, respectively, of tyrosine-phosphorylated PLC activity. To identify the isozyme of PLC that was phosphorylated, we immunoprecipitated PLC-gamma 1 or PLC-gamma 2 with specific antibodies and assessed the amount of tyrosine phosphorylation of these proteins by antiphosphotyrosine immunoblotting. Treatment of WEHI-231 or Bal17 cells with anti-IgM induced an increase in PLC-gamma 2 tyrosine phosphorylation over background levels. There was no detectable tyrosine phosphorylation of PLC-gamma 1 in treated or untreated WEHI-231 cells, whereas anti-IgM-treated Bal17 cells did exhibit low but detectable levels of tyrosine phosphorylation of PLC-gamma 1. In normal resting mouse B cells, there was no detectable PLC-gamma 1, but PLC-gamma 2 was abundant. These observations suggest that PLC-gamma 2 is a significant substrate for the mIg-activated protein tyrosine kinase and may be responsible for mediating mIg stimulation of inositol phospholipid hydrolysis in murine B cells.
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PMID:Tyrosine phosphorylation of phospholipase C-gamma 2 upon cross-linking of membrane Ig on murine B lymphocytes. 157 27

Cross-linking surface Ig on human B cells, or the TCR complex on T cells leads to the rapid appearance of newly tyrosine phosphorylated proteins. This is associated with inositol phospholipid turnover and a rise in intracellular calcium. Incubation of human B or T lymphocytes with the tyrosine kinase inhibitors, herbimycin and genistein, inhibits new tyrosine phosphorylation after receptor-linked activation. This is associated with complete abrogation of the increase in intracellular calcium in these lymphocytes and inhibition of inositol phospholipid turnover. Herbimycin- and genistein-treated lymphocytes are nevertheless still capable of responding to aluminum fluoride with a rise in intracellular calcium. These data support the contention that a B cell-associated protein tyrosine kinase regulates signal transduction via phospholipase C. CD45, the membrane associated protein tyrosine phosphatase, and PMA that activates protein kinase C, both inhibit the calcium response in B lymphocytes induced by receptor cross-linking. PMA and cross-linking CD45 both induced the appearance of tyrosine phosphorylated proteins in human B cells, although the pattern is quite distinct from that seen when surface lg is cross-linked. However, the induction of new tyrosine phosphorylation by anti-mu does not appear to be affected by these reagents. Although this may reflect an insensitivity of the tyrosine phosphorylation assay, it could indicate that regulation of the calcium response and regulation of the tyrosine kinase can be independent processes.
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PMID:The role of tyrosine phosphorylation in signal transduction through surface Ig in human B cells. Inhibition of tyrosine phosphorylation prevents intracellular calcium release. 170 14

The T cell Ag (Ti-CD3) receptor complex has been proposed to regulate phosphoinositide-specific phospholipase C (PLC) through a cholera toxin (CTX)-sensitive guanine nucleotide-binding (G) protein. In this study, we have used CTX and staurosporine as pharmacologic probes to further define the linkage between the Ti-CD3 receptor and PLC activity in the human T cell line, Jurkat. CTX pretreatment inhibited Ti-CD3 receptor-dependent phosphoinositide hydrolysis and, concomitantly, protein tyrosine kinase activation in intact cells. Studies with electrically permeabilized Jurkat cells revealed that guanosine 5'-(3-O-thio) triphosphate stimulated an increase in PLC activity, that unlike the response to Ti-CD3 receptor ligation, was not affected by cellular pretreatment with CTX. In contrast, the phosphotyrosine phosphatase inhibitors, orthovanadate and molybdate anions, stimulated phosphoinositide hydrolysis in permeabilized cells through a CTX-sensitive mechanism of PLC activation. Additional studies with a known PTK inhibitor, staurosporine, supported the results obtained with CTX. Staurosporine pretreatment inhibited the phosphoinositide hydrolysis induced by anti-CD3 antibodies or phosphotyrosine phosphatase inhibitors, but failed to alter the G protein-dependent PLC activation response to guanosine 5'-(3-O-thio) triphosphate. The results of this study indicate that PLC activity(s) in Jurkat cells are regulated by both G protein- and PTK-dependent coupling mechanisms. However, the differential inhibitory effects of CTX and staurosporine on these PLC activation pathways strongly suggest that a protein tyrosine kinase activation event, rather than a G protein, mediates the functional linkage between the Ti-CD3 receptor and PLC activity in Jurkat cells.
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PMID:Signal transduction through the T cell antigen receptor. Activation of phospholipase C through a G protein-independent coupling mechanism. 170 24

We have investigated the mechanism by which the membrane protein complex of the B lymphocyte that contains CD19 and CR2 activates phospholipase C (PLC) to induce a rise in [CA2+]i. The CD19 complex resembled the membrane IgM complex in that three protein tyrosine kinase inhibitors suppressed increases in [Ca2+]i and inositol bisphosphate and inositol triphosphate generation. However, the activation of PLC by the CD19 complex could be distinguished from that by the membrane IgM complex by slower kinetics of generation of inositol phosphates, resistance to inhibition by activators of protein kinase C, and different pattern of tyrosine-phosphorylated cellular substrates. Western blot analysis of lysates from cells stimulated by the CD19 complex demonstrated a single new phosphotyrosine-containing protein of 85 kDa, whereas multiple other phosphotyrosine-containing proteins were present in cells activated by the mIgM complex. In particular, PLC-gamma 1, which is a substrate for the protein tyrosine kinase activated by the mIgM complex, was not tyrosine-phosphorylated in cells stimulated by the CD19 complex. Cross-linking the two complexes together caused a synergistic increase in [CA2+]i which was neither suppressed by activation of protein kinase C nor associated with increased tyrosine-phosphorylation of PLC, characteristic of the CD19 pathway. Therefore, the B cell has two signal transduction complexes, associated with membrane IgM and CD19, that activate PLC by different mechanisms and that can synergistically interact to enhance this function by the CD19 pathway.
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PMID:The CD19 complex of B lymphocytes. Activation of phospholipase C by a protein tyrosine kinase-dependent pathway that can be enhanced by the membrane IgM complex. 171 83

There is a critical need for new targets, in addition to DNA, for anticancer drug development. A recently discovered target is the intracellular signalling pathways that mediate the actions of growth factors and oncogenes on cell proliferation. Two important pathways, the myo-inositol and protein tyrosine kinase signalling pathways are reviewed. Three classes of compounds that modulate myo-inositol signalling are discussed. These are: 1) the D-3-substituted-3-deoxy-myo-inositol analogues that act as antimetabolites of myo-inositol and show selective growth inhibition of some transformed cells; 2) the alkaloid staurosporine that acts as a potent inhibitor of protein kinase C and of platelet-derived growth factor (PDGF) receptor protein tyrosine kinase activity; 3) the ether lipid analogues that block growth factor signalling at several points by acting as inhibitors of protein kinase C, phosphoinositide specific phospholipase C and inositol(1,4,5)trisphosphate-induced Ca2+ release. It is suggested that inhibition of signalling pathways may explain the growth inhibitory effects of these compounds. Other potential signalling target sites for anticancer drug development are discussed.
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PMID:Growth factor and oncogene signalling pathways as targets for rational anticancer drug development. 176 Aug 77

Stimulation of T cell antigen receptor (TCR/CD3) following the recognition of peptide-major histocompatibility antigen complex induces phosphatidylinositol 4,5-bisphosphate (PIP2) hydrolysis. However, the phospholipase C (PLC) enzyme mediating this process has not been identified. We report that PLC gamma 1 protein is expressed in human T cells. It is a phosphoprotein, and the activation of cyclic AMP-dependent protein kinase (PKA) or of protein kinase C (PKC) with forskolin or phorbol ester, respectively, increases the level of phosphorylation. CD3 stimulation of T cells induces tyrosine phosphorylation of PLC gamma 1 and causes 8-10-fold higher yield of PLC activity with anti-phosphotyrosine antibody (APTyr Ab) from activated cells than from non-activated cells. Genistein, an inhibitor of protein tyrosine kinase, decreases this yield of AP-Tyr Ab-bound PLC activity from activated cells and lowers the level of Ca2+ mobilization. Furthermore, phorbol ester and forskolin treatment of cells before CD3 stimulation reduces the level of tyrosine phosphorylation of PLC gamma 1 and the PLC activity associated with APTyr Ab. These results suggest that CD3 stimulation activates PIP2 hydrolysis by inducing tyrosine phosphorylation of PLC gamma 1, which is regulated negatively by PKC and PKA.
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PMID:PLC gamma 1, a possible mediator of T cell receptor function. 183 54

The T cell antigen receptor (TCR) must recognize antigen, and translate this recognition event into intracellular signal transduction events. Two signal transduction events are regulated by the TCR: the activation of a protein tyrosine kinase (PTK) and phospholipase C (PLC). Recent studies suggest that the TCR-activated PTK regulates PLC activation by the phosphorylation of tyrosine residues of PLC gamma 1. The complex structure of the TCR is now being related to its signal transduction function. Studies with chimeric receptors reveal that the antigen binding Ti heterodimer communicates with the subunits involved with signal transduction, the CD3 chains and zeta dimers, through the carboxy-terminal regions of the Ti chains that surround and include the transmembrane domains. Other chimeras have helped demonstrate that the zeta chain family of dimers function to couple the TCR to intracellular signal transduction mechanisms. The signal transduction function of the TCR can be regulated in a number of ways and by other T cell surface molecules. The plasma membrane tyrosine phosphatase CD45, plays a critical role to specifically regulate TCR-mediated activation of PTK's and PLC. Thus, an understanding of the complex structure of the TCR and the intricacies of its signal transduction function is rapidly emerging.
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PMID:Signal transduction by the T cell antigen receptor. 183 25

Tyrphostins are low-molecular-weight synthetic inhibitors of protein tyrosine kinase, which block cell proliferation. Since platelet-derived growth factor (PDGF) is thought to figure prominently in disorders of vascular smooth muscle cells (VSMC), such as atherosclerosis, hypertension, and restenosis, we examined whether tyrphostins would inhibit PDGF-induced mitogenesis in VSMC. In this communication, we demonstrate that tyrphostins with the benzenemalononitrile nucleus inhibited PDGF-dependent growth of VSMC as well as PDGF-dependent DNA synthesis in these cells, with the concentrations for 50% inhibition ranging from 0.04 to 9 microM. Up to 30-fold higher tyrphostin concentrations were required to inhibit serum-stimulated DNA synthesis of VSMC. The effect of the tyrphostins is reversible, since on their removal a normal proliferative response to PDGF was resumed. Tyrphostins also inhibited PDGF-receptor autophosphorylation and PDGF-induced phosphorylation of intracellular substrates, including the phosphorylation of phospholipase C-gamma, with a potency ratio similar to their antimitogenic activity. The expression of c-fos mRNA, a mitogenic nuclear signal, was also reduced in PDGF-stimulated VSMC treated with tyrphostins at concentrations which inhibit PDGF-induced mitogenesis. It is concluded that tyrphostins are potent reversible inhibitors of PDGF-induced mitogenesis which act by inhibiting the tyrosine kinase activity of the PDGF receptor and the subsequent signaling cascade. Tyrphostins may be useful in the study and treatment of VSMC proliferation disorders.
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PMID:Tyrphostins inhibit PDGF-induced DNA synthesis and associated early events in smooth muscle cells. 185 Jan 95

The RL cell line is an EBV-negative, surface IgM, IgD-positive B lymphoma line, which is significantly growth arrested in the presence of acrylamide-linked antibodies to the surface IgM receptor. We demonstrate here that activation of protein kinase C (PKC) with PMA abrogates anti-IgM-induced phosphoinositide turnover and Ca2+ mobilization; however, growth inhibition is not affected. In addition, inhibitors of PKC are unable to reverse the anti-IgM-mediated growth inhibition. Two-dimensional gel electrophoresis reveals a different pattern of protein phosphorylation after treatment of RL with PMA or anti-IgM. These data strongly suggest that anti-IgM-induced growth inhibition does not rely on phospholipase C-mediated phosphoinositide turnover, Ca2+ mobilization, or PKC activation. On the other hand, the phosphatase inhibitor orthovanadate results in an augmentation of proteins phosphorylated on tyrosine and the growth inhibition which follows anti-IgM treatment. Furthermore, protein tyrosine kinase inhibitors, genistein and herbimycin A, are able to reverse the anti-IgM-induced inhibition of growth. These data demonstrate that multiple signaling pathways are activated by the interaction of anti-IgM with its ligand, and suggest that tyrosine kinase activation is a critical component of the inhibitory response.
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PMID:Anti-IgM-mediated growth inhibition of a human B lymphoma cell line is independent of phosphatidylinositol turnover and protein kinase C activation and involves tyrosine phosphorylation. 191 71

Several classes of growth factors can be distinguished that act through different signal transduction pathways. One class is constituted by the peptide growth factors that bind to receptors with ligand-dependent protein tyrosine kinase activity. Another class of mitogens activates a phosphoinositide-specific phospholipase C via a receptor-linked G protein. An intriguing member of this class is lysophosphatidic acid (LPA). LPA mitogenicity is not dependent on other mitogens and is blocked by pertussis toxin. LPA evokes at least three separate signalling cascades: (i) activation of a pertussis toxin-insensitive G protein mediating phosphoinositide hydrolysis; (ii) release of arachidonic acid in a GTP-dependent manner, but independent of prior phosphoinositide hydrolysis; and (iii) activation of a pertussis toxin-sensitive Gi protein mediating inhibition of adenylate cyclase. The peptide bradykinin mimics LPA in inducing responses (i) and (ii), but fails to activate Gi and to stimulate DNA synthesis. Our results suggest that the mitogenic action of LPA occurs through Gi or a related pertussis toxin substrate and that, unexpectedly, the phosphoinositide hydrolysis pathway is neither required nor sufficient, by itself, for mitogenesis.
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PMID:Growth factor-like action of lysophosphatidic acid: mitogenic signalling mediated by G proteins. 211 27


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