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)

Cross-linking of the B cell AgR results in activation of mature B cells and tolerization of immature B cells. The initial signaling events stimulated by membrane immunoglobulin (mIg) cross-linking are tyrosine phosphorylation of a number of proteins. Among the targets of mIg-induced tyrosine phosphorylation are the tyrosine kinases encoded by the lyn, blk, fyn, and syk genes, the mIg-associated proteins MB-1 and Ig-beta, phospholipase C-gamma 1 and -gamma 2, as well as many unidentified proteins. In this report we show that mIg cross-linking also regulates phosphatidylinositol 3-kinase (PtdIns 3-kinase), an enzyme that phosphorylates inositol phospholipids and plays a key role in mediating the effects of tyrosine kinases on growth control in fibroblasts. Cross-linking mIg on B lymphocytes greatly increased the amount of PtdIns 3-kinase activity which could be immunoprecipitated with anti-phosphotyrosine (anti-tyr(P) antibodies. This response was observed after mIg cross-linking in mIgM- and mIgG-bearing B cell lines and after cross-linking either mIgM or mIgD in murine splenic B cells. Thus, regulation of PtdIns 3-kinase is a common feature of signaling by several different isotypes of mIg. This response was rapid and peaked 2 to 3 min after the addition of anti-Ig antibodies. The anti-Ig-stimulated increase in PtdIns 3-kinase activity associated with anti-Tyr(P) immunoprecipitates could reflect increased tyrosine phosphorylation of PtdIns 3-kinase, increased activity of the enzyme, or both. In favor of the first possibility, the tyrosine kinase inhibitor herbimycin A blocked the increase in ant-Tyr(P)-immunoprecipitated PtdIns 3-kinase activity as well as the anti-Ig-induced tyrosine phosphorylation. Moreover, this response was not secondary to phospholipase C activation but rather seemed to be a direct consequence of mIg-induced tyrosine phosphorylation. Activation of the phosphoinositide pathway by a transfected M1 muscarinic acetylcholine receptor expressed in WEHI-231 B lymphoma cells did not increase the amount of PtdIns 3-kinase activity which could be precipitated with anti-Tyr(P) antibodies. Similarly, inhibition of the phosphoinositide pathway did not abrogate the ability of mIg cross-linking to stimulate this response. Thus, mIg-induced tyrosine phosphorylation regulates PtdIns 3-kinase, an important mediator of growth control in fibroblasts and potentially an important regulatory component in B cells as well.
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PMID:Membrane Ig cross-linking regulates phosphatidylinositol 3-kinase in B lymphocytes. 137 19

B cell activation after Ag binding to membrane Ig (mIg) is mediated by a complex series of events that involves proximal activation of a tyrosine kinase and phospholipase C. Until recently it was unclear how mIgM and mIgD, with their limited cytoplasmic domains (three amino acids on each H chain), were able to couple to these secondary signal transducers. Studies of murine B cells conducted in several laboratories, including our own, suggest that products of the mb-1 (IgM-alpha or IgD-alpha) and B29 (Ig-beta, Ig-gamma) genes occur as disulfide-linked alpha/beta and alpha/gamma heterodimers that are noncovalently associated with mIgM and mIgD. Although studies utilizing Daudi and Raji cell lines indicate that human mIgM is also associated with a dimer containing the mb-1 gene product, the other molecules associated with the human receptor have not been identified. In this report we characterize the phosphoproteins that are noncovalently associated with mIgM on human tonsillar B cells and human pre-B cell lines. mIgM is noncovalently associated with a disulfide-linked heterodimer composed of variably glycosylated forms of two core proteins with apparent molecular mass of 26.5 and 27 kDa. Western blotting analysis reveals that the lower m.w. component of each of the mIgM-associated heterodimers and its 27-kDa deglycosylated core protein are reactive with antibodies against the murine B29 gene product. Thus, a product of the B29 gene is a component of the AgR complex in human and murine B cells, occurring as a disulfide linked dimer with product(s) of the mb-1 gene. Interestingly, mb-1 and B29 gene products expressed on human cells are much more heterogenously N-glycosylated than their murine B cell counterparts.
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PMID:Human pre-B and B cell membrane mu-chains are noncovalently associated with a disulfide-linked complex containing a product of the B29 gene. 140 17

Membrane immunoglobulin M (mIgM) and mIgD are major B-lymphocyte antigen receptors, which function by internalizing antigens for processing and presentation to T cells and by transducing essential signals for proliferation and differentiation. Although ligation of mIgM or mIgD results in rapid activation of a phospholipase C and a tyrosine kinase(s), these receptors have cytoplasmic tails of only three amino acid residues (Lys-Val-Lys), which seem ill suited for direct physical coupling with cytoplasmic signal transduction structures. In this report, we identify the alpha, beta, and gamma components of the mIgM-associated phosphoprotein complex, which may play a role in signal transduction. Proteolytic peptide mapping demonstrated that the IgM-alpha chain differs from Ig-beta and Ig-gamma. The chains were purified, and amino-terminal sequencing revealed identity with two previously cloned B-cell-specific genes. One component, IgM-alpha, is a product of the mb-1 gene, and the two additional components, Ig-beta and Ig-gamma, are products of the B29 gene. Immunoblotting analysis using rabbit antibodies prepared against predicted peptide sequences of each gene product confirmed the identification of these mIgM-associated proteins. The deduced sequence indicates that these receptor subunits lack inherent protein kinase domains but include common tyrosine-containing sequence motifs, which are likely sites of induced tyrosine phosphorylation.
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PMID:IgM antigen receptor complex contains phosphoprotein products of B29 and mb-1 genes. 202 45

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

Triggering of the Ig receptor (IgR) induces the activation in multiple intracellular signal transduction reactions including protein tyrosine phosphorylation, activation of phospholipase C, increased inositoltriphosphate, increased diacylglycerol, intracellular Ca2+ mobilization, and activation of protein kinase C. The IgR-complex, composed of mu-chain, L chain, Ig-alpha (MB-1), and Ig-beta (B29) proteins, is a functional unit both for expression of IgR and for signal transduction into cells, possibly by physical association with the down-stream functional molecules. An important functional motif ((D or E)-X7-(D or E)-Y-X3-L-X7-Y-X2-(L or I)) in the cytoplasmic domain of MB-1 molecule was shown to bind with several phosphoprotein components including src-type tyrosine kinases and phosphatidylinositol-3 kinase. To further study the functional components, we analyzed the phosphoprotein molecules coprecipitated with MB-1 protein. We found that a 52-kDa protein is coprecipitated with MB-1 protein and is inducibly phosphorylated by the stimulation with PMA. A rat mAb, prepared by immunizing the 52-kDa protein purified from SDS-PAGE, could detect the similar 52-kDa phosphoprotein (p52) expressed on the cell surface. In comparison with the 52-kDa protein in the immunoprecipitate of MB-1, the p52 migrated to the same position on 2-D gel electrophoresis (nonequilibrium pH gradient gel electrophoresis/SDS-PAGE). An in vitro kinase reaction analysis demonstrated that the p52 is tightly associated with the tyrosine kinase molecule(s), one of which is an 80-kDa protein containing an apparent autophosphorylation activity. These molecules would provide the informations of the down-stream molecules in the cascade reactions of the IgR-mediated signal transduction.
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PMID:Identification of a 52-kDa molecule (p52) coprecipitated with the Ig receptor-related MB-1 protein that is inducibly phosphorylated by the stimulation with phorbol myristate acetate. 814 81

Formation of the pre-BCR complex is a critical check point during B cell development and induces the transition of pro-B to pre-B cells. CD79b (Igbeta) is a signaling component in the pre-BCR complex, since differentiation to the pre-B phenotype is induced by cross-linking the CD79b expressed on developmentally arrested pro-B cells from recombination-activating gene (RAG)-2-deficient mice. Bruton's tyrosine kinase (BTK) plays important roles in B cell development. However, its molecular mechanisms in early B cell development are not fully understood. To examine whether BTK functions in CD79b-mediated signaling for the pro-B/pre-B transition, we utilized RAG2/BTK double-knockout (DKO) mice. Pro-B cells from RAG2/BTK-DKO mice did not differentiate into pre-B cells following CD79b cross-linking, although tyrosine phosphorylation of cellular proteins including Erk1/2 and phospholipase C-gamma2 was induced in the same manner as RAG2-KO mice. BTK is phosphorylated after cross-linking of CD79b on RAG2-deficient pro-B cells. These findings suggest that BTK-dependent pathways downstream of CD79b are critical for the pro-B/pre-B transition and BTK-independent signaling pathways are also activated via the pre-BCR complex.
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PMID:Bruton's tyrosine kinase is required for signaling the CD79b-mediated pro-B to pre-B cell transition. 1128 88

The cytoplasmic adaptor protein SLP-65 (BLNK or BASH) is a critical downstream effector of the B cell antigen receptor (BCR). Tyrosine-phosphorylated SLP-65 assembles intracellular signaling complexes such as the Ca(2 +) initiation complex encompassing phospholipase C-gamma2 and Bruton's tyrosine kinase. It is, however, unclear how the SLP-65 signaling module can be recruited to the plasma membrane. Here we show that following B cell stimulation, SLP-65 associates directly with the BCR signaling subunit, the Ig-alpha / Ig-beta heterodimer. The interaction is mediated by the Src homology 2 domain of SLP-65 and the phosphorylated Ig-alpha tyrosine 204, which is located outside of the immunoreceptor tyrosine-based activation motif. Our data identify an unexpected BCR phosphorylation pattern and indicate that Ig-alpha has the capability to serve as transmembrane adaptor in BCR signaling.
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PMID:Association of SLP-65/BLNK with the B cell antigen receptor through a non-ITAM tyrosine of Ig-alpha. 1144 66

We transduced chronic lymphocytic leukemia (CLL) cells lacking ZAP-70 with vectors encoding ZAP-70 or various mutant forms of ZAP-70 and monitored the response of transduced CLL cells to treatment with F(ab)(2) anti-IgM (anti-mu). CLL cells made to express ZAP-70, a kinase-defective ZAP-70 (ZAP-70-KA(369)), or a ZAP-70 unable to bind c-Cbl (ZAP-YF(292)) experienced greater intracellular calcium flux and had greater increases in the levels of phosphorylated p72(Syk), B-cell linker protein (BLNK), and phospholipase C-gamma, and greater activation of the Ig accessory molecule CD79b in response to treatment with anti-mu than did mock-transfected CLL cells lacking ZAP-70. Transfection of CLL cells with vectors encoding truncated forms of ZAP-70 revealed that the SH2 domain, but not the SH1 domain, was necessary to enhance intracellular calcium flux in response to treatment with anti-mu. We conclude that ZAP-70 most likely acts as an adapter protein that facilitates B-cell receptor (BCR) signaling in CLL cells independent of its tyrosine kinase activity or its ability to interact with c-Cbl.
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PMID:ZAP-70 enhances IgM signaling independent of its kinase activity in chronic lymphocytic leukemia. 1804 47