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)

Src homology 2 (SH2) domains provide specificity to intracellular signaling by binding to specific phosphotyrosine (phospho-Tyr)-containing sequences. We recently developed a technique using a degenerate phosphopeptide library to predict the specificity of individual SH2 domains (src family members, Abl, Nck, Sem5, phospholipase C-gamma, p85 subunit of phosphatidylinositol-3-kinase, and SHPTP2 (Z. Songyang, S. E. Shoelson, M. Chaudhuri, G. Gish, T. Pawson, W. G. Haser, F. King, T. Roberts, S. Ratnofsky, R. J. Lechleider, B. G. Neel, R. B. Birge, J. E. Fajardo, M. M. Chou, H. Hanafusa, B. Schaffhausen, and L. C. Cantley, Cell 72:767-778, 1993). We report here the optimal recognition motifs for SH2 domains from GRB-2, Drk, Csk, Vav, fps/fes, SHC, Syk (carboxy-terminal SH2), 3BP2, and HCP (amino-terminal SH2 domain, also called PTP1C and SHPTP1). As predicted, SH2 domains from proteins that fall into group I on the basis of a Phe or Tyr at the beta D5 position (GRB-2, 3BP2, Csk, fps/fes, Syk C-terminal SH2) select phosphopeptides with the general motif phospho-Tyr-hydrophilic (residue)-hydrophilic (residue)-hydrophobic (residue). The SH2 domains of SHC and HCP (group III proteins with Ile, Leu, of Cys at the beta D5 position) selected the general motif phospho-Tyr-hydrophobic-Xxx-hydrophobic, also as predicted. Vav, which has a Thr at the beta D5 position, selected phospho-Tyr-Met-Glu-Pro as the optimal motif. Each SH2 domain selected a unique optimal motif distinct from motifs previously determined for other SH2 domains. These motifs are used to predict potential sites in signaling proteins for interaction with specific SH2 domain-containing proteins. The Syk SH2 domain is predicted to bind to Tyr-hydrophilic-hydrophilic-Leu/Ile motifs like those repeated at 10-residue intervals in T- and B-cell receptor-associated proteins. SHC is predicted to bind to a subgroup og these same motifs. A structural basis for the association of Csk with Src family members is also suggested from these studies.
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PMID:Specific motifs recognized by the SH2 domains of Csk, 3BP2, fps/fes, GRB-2, HCP, SHC, Syk, and Vav. 751 Dec 10

Ciliary neurotrophic factor (CNTF), leukemia inhibitory factor (LIF), oncostatin M (OSM), and interleukin-6 (IL6) compose a family of distantly related cytokines that initiate signaling by inducing either homodimerization of the "beta" signal transducing receptor component gp130 (in the case of IL6) or heterodimerization between gp130 and the gp130-related LIFR beta (in the case of CNTF, LIF, and OSM); dimerization of beta receptor components in turn activates members of the Jak/Tyk family of receptor-associated tyrosine kinases. Here we report that CNTF, LIF, OSM, and IL6 induce most of the same protein tyrosine phosphorylations, regardless of the cell type assayed or whether they initiate signaling by inducing homo- or heterodimerization of beta components. Although several of the protein tyrosine phosphorylations induced by the CNTF/LIF/OSM/IL6 family of factors may correspond to novel tyrosine kinase targets, we have been able to demonstrate the involvement of known signaling molecules, such as phospholipase C gamma, phosphoinositol 3-kinase, phosphotyrosine phosphatase (PTP1D), pp120, SHC, GRB2, STAT91, Raf-1, and the mitogen-activated protein kinases ERK1 and ERK2, revealing substantial convergence not only between the pathways activated by this cytokine family and other cytokines, but with pathways previously known to be activated only by factors that utilize receptor tyrosine kinases. Our data suggest the beta receptor components can form complexes with some of the signaling proteins identified and may play some role in their recruitment.
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PMID:Ciliary neurotrophic factor/leukemia inhibitory factor/interleukin 6/oncostatin M family of cytokines induces tyrosine phosphorylation of a common set of proteins overlapping those induced by other cytokines and growth factors. 751 71

We have studied the signal transduction pathways of fibroblast growth factor receptor-4 (FGFR-4) and FGFR-1, which showed virtually identical acidic fibroblast growth factor binding profiles as well as tyrosine autophosphorylation upon activation in transfected L6 rat myoblasts and NIH3T3 mouse fibroblasts. A prominently tyrosyl-phosphorylated doublet of polypeptides of 85 kDa coprecipitated with activated FGFR-4 from both cell lines studied, but these polypeptides were not detected upon immunoprecipitation of activated FGFR-1. Furthermore, FGFR-4 induced only a weak tyrosyl phosphorylation of phospholipase C-gamma and no detectable tyrosyl phosphorylation of the SHC adaptor proteins in contrast to FGFR-1. No phosphorylation of Ras GTPase-activating protein, p64 Syp/PTP1D tyrosine phosphatase, or association of the GRB2 adaptor protein SH2 domain with these receptors was detected. Unlike FGFR-1, FGFR-4 induced only a barely detectable phosphorylation of the cellular serine/threonine kinase Raf-1 and a weaker tyrosyl phosphorylation of mitogen-activated protein kinases than FGFR-1. Despite these differences, stimulation of both receptors resulted in increased DNA synthesis.
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PMID:Signal transduction by fibroblast growth factor receptor-4 (FGFR-4). Comparison with FGFR-1. 751 29

A single point mutation, Glu627--> Val, equivalent to the activating mutation in the Neu oncogene, was inserted in the transmembrane domain of the human epidermal growth factor (EGF) receptor. Unlike the wild type, Glu627-EGF receptor, transfected in NIH3T3 cells, gave rise to focal transformation and growth in agar even in the absence EGF. Constitutive activity of mutant EGF receptor amounted to 20% of that of wild type receptor stimulated by EGF. In addition, the mutant receptor was more sensitive to EGF, reaching maximum transforming activity at 5 ng/ml EGF. NIH3T3 cells expressing Glu627-EGF receptor showed a transformed phenotype and were not arrested in G0 upon serum deprivation. The mutant receptor was constitutively autophosphorylated, and several other cellular proteins were phosphorylated on tyrosine in absence of the ligand. Among these, the SHC adaptor protein was phosphorylated in absence of EGF, the other adaptor, GRB-2 was constitutively associated with the Glu627-EGF receptor in vivo and in vitro, and mitogen-activated protein kinase was constitutively phosphorylated. In contrast, other EGF receptor substrates, like phospholipase C gamma, were not phosphorylated in absence of EGF. The mutant receptor showed a higher sensitivity to cleavage by calpain both in absence and presence of EGF, appeared as a 170- and 150-kDa doublet in cell extracts, and a specific calpain inhibitor blocked the appearance of the 150-kDa form. Since the calpain cleavage site is located in the receptor cytoplasmic tail, this finding suggests that the Glu627 mutation induces a slightly different conformation in the EGF receptor intracellular domain. In conclusion, our data show that a point mutation in the EGF receptor transmembrane domain was able to constitutively activate the receptor and to induce transformation via constitutive activation of the Ras pathway.
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PMID:SHC and GRB-2 are constitutively by an epidermal growth factor receptor with a point mutation in the transmembrane domain. 764 41

Differentiation and survival of neuronal cell types requires the action of neurotrophic polypeptides such as nerve growth factor (NGF). In the central and peripheral nervous system and the phaeochromocytoma cell model PC12, NGF exerts its effects through the activation of the signalling capacity of Trk, a receptor tyrosine kinase (RTK) which upon interaction with NGF becomes phosphorylated on tyrosines and thereby acquires the potential to interact with signal-transducing proteins such as phospholipase C-gamma (PLC gamma), phosphatidylinositol-3'-kinase (PI3'-K) and SHC. Mutagenesis of the specific binding sites for these src homology 2 (SH2) domain-containing substrates within the Trk cytoplasmic domain suggests a non-essential function of PI3'-K and reveals a major role for the signal controlled by the SHC binding site at tyrosine 490 and a co-operative function of the PLC gamma-mediated pathway for neuronal differentiation of PC12 cells.
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PMID:Neuronal differentiation signals are controlled by nerve growth factor receptor/Trk binding sites for SHC and PLC gamma. 815 97

Phosphotyrosine-containing synthetic peptides were used to identify the binding sites for cellular polypeptides involved in nerve growth factor receptor/Trk-mediated signal transduction. In vitro association of SHC and the p85 subunit of phosphatidylinositol 3'-kinase with the Trk tyrosine kinase was prevented only by phosphorylated Y-490- and Y-751-containing peptides, respectively. In spite of the close proximity of the p85 binding site to that of phospholipase C gamma (Y-785), both target proteins are able to interact with the same receptor molecule simultaneously.
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PMID:Identification of Trk binding sites for SHC and phosphatidylinositol 3'-kinase and formation of a multimeric signaling complex. 822 8

Fibroblast growth factor (FGF) receptors (FGFRs) are structurally related receptor protein tyrosine kinases encoded by four distinct genes. Activation of FGFR-1, -2, and -3 by FGFs induces mitogenic responses in various cell types, but the mitogenic potential of FGFR-4 has not been previously explored. We have compared the properties of BaF3 murine lymphoid cells and L6 rat myoblast cells engineered to express FGFR-1 or FGFR-4. Acidic FGF binds with high affinity to and elicits tyrosine phosphorylation of FGFR-1 or FGFR-4 receptors displayed on BaF3 cells, but only FGFR-1 activation leads to cell survival and growth. FGFR-4 activation also fails to elicit detectable signals characteristic of the FGFR-1 response: tyrosine phosphorylation of SHC and extracellular signal-related kinase (ERK) proteins and induction of fos and tis11 RNA expression. The only detected response to FGFR-4 activation was weak phosphorylation of phospholipase C gamma. A chimeric receptor containing the extracellular domain of FGFR-4 and the intracellular domain of FGFR-1 confers FGF-dependent growth upon transfected BaF3 cells, demonstrating that the intracellular domains of the receptors dictate their functional capacity. Activation of FGFR-1 in transfected L6 myoblasts induced far stronger phosphorylation of phospholipase C gamma, SHC, and ERK proteins than could activation of FGFR-4 in L6 cells, and only FGFR-1 activation induced tyrosine phosphorylation of a characteristic 80-kD protein. Hence, the signaling and biological responses elicited by different FGF receptors substantially differ.
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PMID:Fibroblast growth factor receptors have different signaling and mitogenic potentials. 826 85

We investigated the signaling pathways exerted by brain-derived neurotrophic factor (BDNF) and neurotrophin-3 (NT-3) in relation to their survival-promoting effects on dissociated cultures of cerebellar granule cells prepared from postnatal 9-day-old rats. Granule neuron survival in culture was supported by BDNF, but not significantly by either nerve growth factor (NGF) or NT-3. BDNF and NT-3 resulted in not only the respective autophosphorylation of the Trk receptors, TrkB or TrkC, but also tyrosine phosphorylation of SHC, a protein involved in controlling p21ras activity, and phosphatidylinositol-3' (PI-3') kinase. NGF does not result in TrkA phosphorylation. In parallel, c-fos was induced within 30 min, in response to BDNF and NT-3. NT-3 induced the phosphorylation of these proteins to a lesser extent than BDNF. BDNF also induced the tyrosine phosphorylation of phospholipase C gamma (PLC gamma), but the NT-3-induced one was not detected. We postulate that no survival promotion by NT-3 is due to lesser level of trkC expression and of the NT-3-induced signaling in the cultured cerebellar granule neurons. Wortmannin, a specific inhibitor of PI-3' inhibited the BDNF effect on neuronal survival. PI-3' kinase-dependent pathways might be involved in the promotion of cerebellar granule cell survival by BDNF.
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PMID:Signaling pathways and survival effects of BDNF and NT-3 on cultured cerebellar granule cells. 894 53

The intraperitoneal injection of a vanadate/H2O2 mixture (peroxovanadate) into mice resulted within minutes in the appearance of numerous tyrosine-phosphorylated proteins in the liver and kidney. These effects are presumably due to the inhibition of phosphotyrosine phosphatase activity. Three of the tyrosine-phosphorylated proteins have been identified as the receptors for epidermal growth factor, insulin, and hepatocyte growth factor. The injection of peroxovanadate also enhanced the tyrosine phosphorylation of many of the proteins known to function downstream of these receptors, including SHC, signal transducer and activator of transcription (Stat) 1alpha,beta, Stat 3, Stat 5, phospholipase C-gamma, insulin receptor substrate 1, GTPase-activating protein, beta-catenin, gamma-catenin, p120cas, SHP-1, and SHP-2. The administration of peroxovanadate also induced nuclear translocation of a number of tyrosine-phosphorylated Stat proteins. In addition, the global effects on tyrosine phosphorylation permitted the detection of a number of novel intracellular protein interactions, including an association of Tyk2 with beta-catenin. The in situ administration of peroxovanadate may prove useful in the search for novel tyrosine-phosphorylated proteins and the identification of new interactions between previously identified tyrosine-phosphorylated substrates.
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PMID:Peroxovanadate induces tyrosine phosphorylation of multiple signaling proteins in mouse liver and kidney. 899 30

Epidermal growth factor (EGF)-induced autophosphorylation of the EGF receptor results in high-affinity binding of the adaptor protein GRB2, which serves as a convergence point for multiple signaling pathways. Present studies demonstrate that EGF induces the co-immunoprecipitation of phospholipase C (PLC)-gamma1 with the adaptor protein GRB2 and the guanine nucleotide exchange factor Sos, but not with the adaptor protein SHC, in WB cells. Inhibition of PLC-gamma1 tyrosine phosphorylation by phenylarsine oxide reduces the co-immunoprecipitation of PLC-gamma1 with GRB2. Furthermore, angiotensin II, a G protein-coupled receptor agonist, also induces the tyrosine phosphorylation of PLC-gamma1 and its co-immunoprecipitation with GRB2 in WB cells. Interestingly, angiotensin II stimulation also causes tyrosine phosphorylation of the EGF receptor, suggesting that angiotensin II-induced PLC-gamma1 tyrosine phosphorylation in WB cells may be via EGF receptor tyrosine kinase activation. In addition, there is some level of association between PLC-gamma1 and GRB2 that is independent of the tyrosine phosphorylation of PLC-gamma1 in both in vivo and in vitro studies. In vitro studies further demonstrate that the Tyr771 and Tyr783 region of PLC-gamma1 and the SH2 domain of GRB2 are potentially involved in the tyrosine phosphorylation-dependent association between PLC-gamma1 and GRB2. The association of PLC-gamma1 with GRB2 and Sos suggests that PLC-gamma1 may be directly involved in the Ras signaling pathway and that GRB2 may be involved in the translocation of PLC-gamma1 from cytosol to the plasma membrane as a necessary step for its effect on inositol lipid hydrolysis.
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PMID:A new function for phospholipase C-gamma1: coupling to the adaptor protein GRB2. 928 17

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