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)

The importance of the tyrosine phosphatase CD45 in the regulation of lymphocyte activation was first demonstrated using antibodies against the extracellular domain of CD45 in functional assays. More recently it was reported that CD45-negative mutants were nonresponsive to stimulation through the T cell receptor-CD3 complex. We have studied the effect of CD45 cross-linking on the early signals induced by CD3 in mouse T cells. We show that CD45 cross-linking inhibits the increase in inositol phosphates and cytoplasmic Ca2+ induced by cross-linking of CD3. This indicates that CD45 is involved in the regulation of phospholipase C.
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PMID:Evidence that the CD45 phosphatase regulates the activity of the phospholipase C in mouse T lymphocytes. 184 15

In lymphocytes, CD45 regulates the increase in cytoplasmic calcium concentration that occurs after receptor cross-linking. Here we show that T cell receptor complex (CD3/Ti)-mediated inositol phosphate production was inhibited by CD45 ligation in Jurkat cells. CD3/Ti signaling in normal T cells was also inhibited by CD45 ligation, but coupling of CD4 with CD3/Ti gave augmented calcium signals that were entirely resistant to the inhibitory effect of CD45. In contrast, CD3-induced T cell proliferation was suppressed by immobilized CD45 mAb even in the presence of CD4 mAb. The effect of CD45 and CD4 ligation on tyrosine phosphorylation during T cell activation was directly examined by immunoblotting with anti-phosphotyrosine. Using immobilized mAb, CD45 ligation suppressed the tyrosine phosphorylation of specific substrates induced by CD3/Ti stimulation, including almost complete suppression of 150-, 36-, and 35-kDa proteins and partial suppression of 76- and 80-kDa proteins. Other tyrosine-phosphorylated proteins induced by CD3/Ti stimulation, including 135- and 21-kDa proteins, were not suppressed by simultaneous ligation of CD3/Ti and CD45. Simultaneous ligation of CD3 and CD4 enhanced tyrosine phosphorylation of all substrates, but did not overcome the CD45-mediated suppression of tyrosine phosphorylation of the 35- and 36-kDa proteins. The CD45-mediated suppression of phospholipase C activation is therefore modulated by association with CD4 without altering the specific inhibition of tyrosine phosphorylation and T cell proliferation after co-ligation of CD45 and CD3/Ti.
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PMID:CD45 cross-linking regulates phospholipase C activation and tyrosine phosphorylation of specific substrates in CD3/Ti-stimulated T cells. 184 66

In this study we compare the effect of CD3 and CD2 ligation on tyrosine kinase activation in human peripheral blood T cells. Using antiphosphotyrosine antibody to detect tyrosine phosphorylation of cellular substrates, we demonstrate that mAb stimulation of either CD3 or CD2 results in tyrosine phosphorylation of the TCR-zeta chain and 135- and 100-kDa proteins. However, differences are observed between CD3 and CD2 ligation; only the former results in rapid tyrosine phosphorylation of 72-, 65-, and 40-kDa substrates. Co-aggregation of CD2 and CD45, a tyrosine phosphatase, results in inhibition of intracellular calcium elevation and T cell proliferation. We demonstrate in this study that this manipulation also inhibits polyphosphoinositide hydrolysis and tyrosine phosphorylation of the 100-kDa substrate. The failure of tyrosine phosphorylation of the 100-kDa substrate is specific in that phosphorylation of the 135-kDa protein is not inhibited. Similar results are observed when CD2 and CD45 are independently cross-linked rather than co-aggregated. The observation that CD45 cross-linking alters tyrosine phosphorylation of T cell substrates and effects polyphosphoinositide hydrolysis is further evidence that tyrosine phosphorylation regulates early events in T cell activation including, perhaps, phospholipase C activity.
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PMID:Activation of tyrosine phosphorylation in human T cells via the CD2 pathway. Regulation by the CD45 tyrosine phosphatase. 197 95

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

Ganglioside (GM1) modulation of CD4 off the surface of T lymphocytes defined functions of the CD4 molecule during signal transduction through the T cell receptor (TCR)/CD3 complex. Antibody cross-linking of CD3 alone (3 x 3) stimulated phospholipase C (PLC) activity, rapid Ca2+ flux, and protein phosphorylations in freshly isolated human T lymphocytes. Antibody cross-linking of CD4 and CD3 (3 x 4) stimulated greater signaling than that caused by 3 x 3. Cross-linking CD4 alone did not stimulate these signaling processes. GM1-modulation of CD4 from the cell surface blocked all aspects of the augmented signaling imparted by CD4 co-modulation with CD3. In comparison, pretreatment with the protein tyrosine kinase inhibitor genistein inhibited 3 x 4-stimulated PLC activity and protein phosphorylation but not Ca2+ flux. Antibody cross-linking of the tyrosine phosphatase CD45 with 3 x 4 (3 x 4 x 45) also inhibited CD4-augmented phosphorylations and like genistein did not reduce Ca2+ levels. In conclusion, these data demonstrate that CD4 can augment signal transduction through the TCR/CD3 complex by its physical proximity to CD3. TCR/CD3-signaling augmentation by CD4 stimulated protein tyrosine kinases and PLC activities but stimulated intracellular Ca2+ flux through an independent mechanism(s).
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PMID:Ganglioside (GM1) distinguishes the effects of CD4 on signal transduction through the TCR/CD3 complex in human lymphocytes. 810 89

Stimulation of the human monocytic cell line THP-1 by cross-linking either Fc gamma receptor I (Fc gamma RI) or Fc gamma receptor II (Fc gamma RII) gave rise to the rapid phosphorylation of multiple intracellular proteins. The pattern of proteins that were phosphorylated appeared to be identical. Analysis of these proteins by specific immunoprecipitation indicated that stimulation through either receptor did indeed give rise to phosphorylation of the same set of proteins. These included: Fc gamma RII, phospholipase C (PLC) gamma 1, PLC gamma 2, Vav, GAP, and a protein that co-precipitated with the Fc gamma receptors and migrated with a molecular weight of about 70,000. Co-cross-linking an F(ab')2 anti-CD45 monoclonal antibody together with monoclonal antibodies to either of the Fc gamma receptors inhibited phosphorylation of all these proteins. Analysis of the tyrosine kinases in the cells revealed that both receptors stimulated the phosphorylation and activation of a kinase recognized by antibodies to Syk. Furthermore, the Syk kinase became associated with the Fc gamma RII following receptor cross-linking. These data indicate that although the two Fc gamma receptors have different cytoplasmic tails, they are coupled to the same signal transduction cascade that is regulated by CD45 and involves the activation of Syk.
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PMID:Cross-linking of Fc gamma receptor I (Fc gamma RI) and receptor II (Fc gamma RII) on monocytic cells activates a signal transduction pathway common to both Fc receptors that involves the stimulation of p72 Syk protein tyrosine kinase. 822 94

T cell antigen receptor (TCR) activation involves interactions between receptor subunits and nonreceptor protein tyrosine kinases (PTKs). Early steps in signaling through the zeta chain of the TCR were examined in transfected COS-1 cells. Coexpression of the PTK p59fynT, but not p56lck, with zeta or with a homodimeric TCR beta-zeta fusion protein produced tyrosine phosphorylation of both zeta and phospholipase C (PLC)-gamma 1, as well as calcium ion mobilization in response to receptor cross-linking. CD45 coexpression enhanced these effects. No requirement for the PTKZAP-70 was observed. Thus, p59fynT may link zeta directly to the PLC-gamma 1 activation pathway.
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PMID:Reconstitution of T cell receptor zeta-mediated calcium mobilization in nonlymphoid cells. 834 42

Pervanadate treatment of a mouse T-cell hybridoma cell line overexpressing an activated form of p56lck was shown to result in tyrosine phosphorylation of CD45. Immunoprecipitates prepared under mild lysis conditions using antibodies against CD45 contained a number of other proteins, including p56lck, that were not evident in the absence of pervanadate treatment or in T cells lacking activated Lck, implying that under these conditions, CD45 is present within complexes containing Lck and other proteins. Analyses involving deletion mutants of p56lck indicated that interactions with CD45 did not absolutely require the SH2 and SH3 regions of Lck. Three proteins of the Ras signalling pathway were also shown to associated with CD45: the GTPase-activating protein for Ras (rasGAP), the signalling protein Grb2, and, possibly via complex formation with Grb2, the guanine nucleotide exchange factor mammalian son of sevenless (mSOS). In addition, CD45 was also found in immunoprecipitates prepared from these cells using an antiserum which recognizes Vav. It is possible that rasGAP, Grb2 and Vav bind to phosphotyrosine residues on CD45 via SH2 domains, and such interactions may be specific as other SH2-containing proteins, including phospholipase C alpha (PLC gamma), the p85 subunit of phosphatidylinositol 3-kinase (PI 3-kinase). She and Syp/PTP1D were not detectably associated with CD45 under the same conditions. These data suggested that in addition to its role as a protein tyrosine phosphatase, CD45 may participate in T-cell activation by serving as a membrane docking site for components of the Ras signalling pathway.
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PMID:Association of CD45 with Lck and components of the Ras signalling pathway in pervanadate-treated mouse T-cell lines. 857 Feb 3

Evidence is presented showing that a protein tyrosine phosphatase different from CD45 is present on the membrane of human hematopoietic cells. The molecule recognized by the monoclonal antibody 143-41, which has been classified as CD148 in the VI International Workshop on Leukocyte Differentiation Antigens, was immunopurified and sequenced. The sequence obtained from N-terminus as well as from two different CNBr-digested peptides showed a close identity with a previously described tyrosine phosphatase named HPTP-eta/DEP-1. CD148 is present on all hematopoietic lineages, being expressed with higher intensity on granulocytes than on monocytes and lymphocytes. Interestingly, whereas it is clearly present on peripheral blood lymphocytes, it is poorly expressed on different lymphoid cell lines of T and B origin. When this protein tyrosine phosphatase was cocrosslinked with CD3, an inhibition of the normally observed calcium mobilization was observed. This inhibition correlates with a decrease in phospholipase C-gamma (PLC-gamma) phosphorylation and is similar to the one observed with CD45. In addition, it is shown that the crosslinking of the CD148 alone is also able to induce an increase in [Ca2+]i. This increase is abolished in the presence of genistein and by cocrosslinking with CD45. These data, together with the induction of tyrosine phosphorylation on several substrates, including PLC-gamma, after CD148 crosslinking, suggest the involvement of a tyrosine kinase-based signaling pathway in this process. In conclusion, the data presented show that CD148 corresponds to a previously described protein tyrosine phosphatase HPTP-eta/DEP-1 and that this molecule is involved in signal transduction in lymphocytes.
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PMID:CD148 is a membrane protein tyrosine phosphatase present in all hematopoietic lineages and is involved in signal transduction on lymphocytes. 953 90

It has been shown that endogenous production of reactive oxygen species (ROS) during T cell activation regulates signaling events including MAPK activation. Protein tyrosine phosphatases (PTPs) have been regarded as targets of ROS which modify the catalytic cysteine residues of the enzymes. We have analyzed the interplay between the inhibition of PTPs and the activation of MAPK by H(2)O(2). Stimulation of Jurkat T cells with H(2)O(2) induces the phosphorylation of ERK, p38, and JNK members of MAPK family. H(2)O(2) stimulation of T cells was found to inhibit the PTP activity of CD45, SHP-1, and HePTP. Transfection of cells with wtSHP-1 decreased H(2)O(2)-induced ERK and JNK phosphorylation without affecting p38 phosphorylation. Transfection with wtHePTP inhibited H(2)O(2)-induced ERK and p38 phosphorylation without inhibiting JNK phosphorylation. The Src-family kinase inhibitor, PP2, inhibited the H(2)O(2)-induced phosphorylation of ERK, p38, and JNK. The phospholipase C (PLC) inhibitor, U73122, or the protein kinase C (PKC) inhibitor, Ro-31-8425, blocked H(2)O(2)-induced ERK phosphorylation, whereas the same treatment did not inhibit p38 or JNK phosphorylation. Taken together, these results suggest that inhibition of PTPs by H(2)O(2) contributes to the induction of distinct MAPK activation profiles via differential signaling pathways.
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PMID:Inhibition of PTPs by H(2)O(2) regulates the activation of distinct MAPK pathways. 1237 24

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