Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Phosphorylation of two newly identified epidermal growth factor (EGF) receptor substrates, eps8 and eps15, which do not possess Src homology (SH2) domains, was investigated using EGF receptor mutants of the autophosphorylation sites and deletion mutants of the carboxyl-terminal region. Two mutants, F5, in which all five tyrosine autophosphorylation sites substituted by phenylalanine, and Dc 123F, in which four tyrosines were removed by deletion and the fifth (Tyr-992) was mutated into phenylalanine, phosphorylated eps8 and eps15 as efficiently as the wild-type receptor. In contrast, SH2-containing substrates, phospholipase C gamma, the GTPase-activating protein of Ras, the p85 subunit of phosphatidylinositol 3 kinase, and the Src and collagen homology protein, are not phosphorylated by the F5 and Dc 123F mutants. A longer EGF receptor deletion mutant, Dc 214, lacking all five autophosphorylation sites, was unable to phosphorylate eps15 but phosphorylated eps8 13-fold more than the wild-type receptor. To determine the EGF receptor region important for phosphorylation of eps8 and eps15, progressive deletion mutants lacking the final 123, 165, 196, and 214 COOH-terminal residues were used. eps8 phosphorylation was progressively increased in Dc 165, Dc 196, and Dc 214 EGF receptor mutants, indicating that removal of the final 214 COOH-terminal residues increases the phosphorylation of this substrate by the EGF receptor. In contrast, eps15 was phosphorylated by Dc 123 and Dc 165 EGF receptor mutants but not by Dc 196 and Dc 214 mutants. This indicates that a region of 30 residues located between Dc 165 and Dc 196 is essential for eps15 phosphorylation. This is the first demonstration of structural requirements in the EGF receptor COOH terminus for efficient phosphorylation of non-SH2-containing substrates. In addition, enhanced eps8 phosphorylation correlates well with the increased transforming potential of EGF receptor deletion mutants Dc 196 and Dc 214, suggesting that this substrate may be involved in mitogenic signaling.
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PMID:Structural requirements of the epidermal growth factor receptor for tyrosine phosphorylation of eps8 and eps15, substrates lacking Src SH2 homology domains. 760 94

The association of hepatocyte growth factor (HGF) with its high-affinity receptor, c-met, has been shown to induce mitogenesis, motogenesis, and morphogenesis in renal epithelial cells (L. G. Cantley, E. J. G. Barros, M. Gandhi, M. Rauchman, and S. K. Nigam. Am. J. Physiol. 267 (Renal Fluid Electrolyte Physiol. 36): F271-F280, 1994), suggesting that HGF may be critical to the orchestration of both renal development and regeneration following injury. Although signal transduction pathways activated by c-met include the phosphatidylinositol 3-kinase (PI-3-kinase), phospholipase C gamma, ras, and others, the activation of PI-3-kinase has been the most striking in vivo. We therefore investigated whether the pathways that mediate phenotypic changes in inner medullary collecting duct cells are altered by inhibition of PI-3-kinase with the fungal metabolite, wortmannin. In these cells, the mean inhibitory concentration for in vitro wortmannin inhibition of PI-3-kinase was approximately 0.2 nM. At this low concentration, motogenesis (quantified by chemotaxis) and morphogenesis (by branching-process formation within collagen matrix) were inhibited in a striking and parallel fashion, while mitogenesis was inhibited to a lesser degree. These experiments suggest that activation of PI-3-kinase is critical for c-met-mediated chemotaxis and tubulogenesis.
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PMID:HGF-mediated chemotaxis and tubulogenesis require activation of the phosphatidylinositol 3-kinase. 761 61

Complement protein C1q induces the production of superoxide (O2-) by neutrophils via an as yet unidentified receptor or receptor complex. Several strategies were therefore used to identify cell surface molecules involved in the response of neutrophils to C1q and its collagen-like domain (C1q-CLR). Treatment of neutrophils with phosphatidylinositol-specific phospholipase C effectively removed the phosphatidylinositol-linked surface molecules CD14 and CD16, yet did not reduce O2- production in response to C1q. Next, 17 monoclonal antibodies (mAbs) recognizing various neutrophil surface antigens were tested for their ability to inhibit C1q-CLR-mediated O2- production. Only two of the mAbs, 44a and IB4, which recognize CD11b/CD18 (complement receptor 3 or Mac-1), were inhibitory. In addition, neutrophils from a patient with leukocyte adhesion deficiency, which are CD18 deficient, did not produce O2- in response to C1q or C1q-CLR. Because CD11b/CD18 is recognized to play a role in cell adhesion, the role of adherence in C1q-mediated O2- production was explored. Adherence of neutrophils to C1q-CLR-coated surfaces occurred with kinetics, which usually paralleled those of O2- production, and was invariably abolished by the anti-CD11b mAb 44a. However, this mAb often only partially inhibited O2- production, indicating that an avid attachment of neutrophils to the C1q-CLR-coated surface is not required for O2- production.
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PMID:C1q triggers neutrophil superoxide production by a unique CD18-dependent mechanism. 764 12

Cultures of teat, ductal and secretory epithelial cells were used to study the role of alpha-toxin and the capsular exopolysaccharide on the adherence of Staphylococcus aureus to mammary epithelium. The adherence of S aureus to the cells and their susceptibility to damage by alpha-toxin increased from teat to ductal to secretory cells. Alpha-toxin increased the susceptibility of epithelial cell monolayers to adherence by S aureus, and the extent of the adherence increased with the time of exposure to alpha-toxin. The exopolysaccharide capsule deterred the adherence of S aureus to mammary epithelial cells and to collagen. Organisms with a rigid capsule adhered to a smaller extent than those with a flaccid capsule. Both encapsulated and unencapsulated S aureus adhered more readily to collagen than to either healthy monolayers of epithelial cells or monolayers of cells damaged by alpha-toxin.
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PMID:Effect of alpha-toxin and capsular exopolysaccharide on the adherence of Staphylococcus aureus to cultured teat, ductal and secretory mammary epithelial cells. 770 55

We have investigated the protective role of hyperimmune rabbit IgG against two surface structures of Staphylococcus aureus, i.e. fibronectin-, and collagen-binding proteins as well as alpha-toxin in experimental peritonitis and septicaemia in neutropenic mice pretreated with cyclophosphamide. This treatment markedly decreased clearance of bacteria from mouse organs. With combined immunotherapy given passively bacteria were eradicated more efficiently for all animals sampled, comparative to controls.
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PMID:Role of antibodies against fibronectin-, collagen-binding proteins and alphatoxin in experimental Staphylococcus aureus peritonitis and septicaemia in neutropenic mice. 772 97

The mechanism of arachidonic acid (AA) release in collagen-activated human platelets was studied. An arachidonic acid metabolite, thromboxane B2 (TXB2), was formed in parallel with the formation of phosphatidic acid (PA) without formation of lysophosphatidic acid (lysoPA) or lysophosphatidylinositol (lysoPI) in the absence of extracellular Ca2+, suggesting that AA was released from PI via a PI-specific phospholipase C (PI-PLC)/diacylglycerol (DG) lipase/monoacylglycerol (MG) lipase pathway under the cytosolic low Ca2+ concentrations. Moreover, solubilized DG lipase and MG lipase could hydrolyze the substrates at basal cytosolic free Ca2+ concentrations. Subsequently, the relationship of cytosolic free Ca2+ concentrations and formation of AA metabolites was analyzed using Ca2+ ionophore, A23187. Collagen was able to induce a release of small amounts of AA under basal cytosolic Ca2+ conditions. However, a release of large amounts of AA was induced by phospholipase A2 activated by both collagen-receptor occupancy and elevated Ca2+ levels. A TXA2 mimetic agonist, STA2 induced all the responses except for AA release. From these results, the mechanism of AA release and signal transduction in collagen-activated human platelets is discussed.
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PMID:The mechanism of arachidonic acid release in collagen-activated human platelets. 776 21

We have shown previously that phosphatidic acid esterified to polyunsaturated fatty acids is mitogenic for primary cultures of mouse mammary epithelial cells embedded within collagen gels. We hypothesized that this mitogenic competence resulted from the ability of this phospholipid to activate multiple signal transduction pathways in mammary epithelium. A closer examination of this hypothesis was undertaken by examining the effect of exogenous phosphatidic acid on phosphoinositide (PI) hydrolysis and its intracellular metabolism to diglyceride, an activator of protein kinase C. For assays of phosphoinositide-specific phospholipase C activation, mammary epithelial cells from virgin Balb/c mice were isolated by collagenase dissociation of mammary glands and cultured on the surface of Type I collagen-coated culture dishes. Phosphatidic acid (PA) stimulated a sustained increase in inositol phosphates and caused inositol phospholipid depletion when added to cells in which inositol phospholipids were prelabeled with 3H-myoinositol. This effect was specific for PA among phospholipids tested. Neither lineoleic acid, that can be released from PA, nor prostaglandin E2 affected PI hydrolysis. When mammary epithelial cells were cultured inside collagen gels in the presence of exogenous PA or phosphatidylcholine (PC) radiolabeled with 3H-glycerol, PA was found to persist intracellularly and be dephosphorylated to diglyceride (an activator of protein kinase C) to a greater extent than PC, a nonmitogenic phospholipid. In contrast to PA, epidermal growth factor (EGF) only slightly stimulated PI hydrolysis, showing that these two different growth-promoting factors do not actively couple to the same signal transduction pathways in mammary epithelial cells. These results show that PA may activate multiple pathways in mammary epithelial cells either directly or via its metabolism to diglyceride.
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PMID:Multifunctional phosphatidic acid signaling in mammary epithelial cells: stimulation of phosphoinositide hydrolysis and conversion to diglyceride. 777 98

The effect of lysophosphatidic acid (LPA) on the proliferation of normal and tumor mouse mammary epithelial cells in primary, serum-free, collagen gel cell culture was evaluated. LPA stimulated the growth of normal mammary epithelial cells from mature virgin mice. The growth of pregnancy-dependent tumors (PDT) was generally stimulated, although the response was attenuated in some of these tumors compared to normal cells. In contrast, the growth of 70% of ovarian-independent tumors (OIT) was inhibited by LPA; the remainder were unaffected. LPA stimulated cAMP accumulation and phosphoinositide (PI) hydrolysis in normal, PDT, and OIT. Thus, the regulation of adenylyl cyclase and PI-specific phospholipase C by LPA is similar in normal and tumor cells. Pertussis toxin (PT) partially inhibited LPA-stimulated growth in normal cells but did not affect LPA-stimulated PI hydrolysis or cAMP accumulation. Thus, PT-sensitive and -insensitive proliferative pathways are activated. PT also inhibited LPA-stimulated growth of PDT but generally had no effect on the growth of OIT. These results show that the mitogenic response to LPA is attenuated in the hormone-dependent phenotype and switches to growth inhibition in hormone-independent tumors. Furthermore, LPA stimulates multiple signal transduction pathways mediated by PT-sensitive and -insensitive G proteins. The PT-sensitive pathways are not tightly coupled to the proliferative response to LPA in tumor cells. These data suggest that alterations in G protein function may occur during tumor progression.
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PMID:Analysis of the proliferative response to lysophosphatidic acid in primary cultures of mammary epithelium: differences between normal and tumor cells. 781 18

Previously, we have reported that dietary fatty acids can modify the thromboxane A2-dependent activation of rat platelets. Here, we present evidence that this dietary effect is part of a more general effect on platelet signal transduction, putatively involving structural changes in the platelet membranes. Four experiments were performed, where Wistar rats were fed with a high-fat diet enriched in either saturated, n-6 polyunsaturated or n-3 polyunsaturated fatty acids, or with a low-fat diet enriched in n-6 polyunsaturated fatty acids. The type of diet hardly influenced mean number of double bonds in the major platelet phospholipids. Platelet membranes from the rats fed with the saturated-fat diet had phospholipids with relatively high levels of arachidonate, but were low in cholesterol/phospholipid ratio. When compared to this diet group, platelets from other groups had an arachidonate content that was 21 to 47% lower and a cholesterol/phospholipid ratio 3 to 5% higher. The saturated-fat diet resulted in platelets that, in general, were less responsive to agonists than the platelets from other groups: with thrombin, collagen and thromboxane A2 analogue U46619, both early (shape change and phospholipase C-dependent rise in [Ca2+]i) and late (exocytosis and aggregation) responses were relatively low. However, platelet activation evoked by ADP was not influenced by diet type. When the cholesterol content of rat platelets was modified in vitro, it appeared that the early and late responses to thrombin and U46619 increased with the cholesterol/phospholipid ratio. Taken together, these results suggest that in rat platelets (i) the membrane cholesterol/phospholipid ratio can be modulated by a diet rich in saturated fatty acids, explaining, at least in part, the dietary effect on phospholipase C-mediated platelet activation, and (ii) relatively small changes in cholesterol content can have a more profound effect on platelet activation than substantial changes in arachidonate level.
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PMID:Effects of dietary fatty acids on signal transduction and membrane cholesterol content in rat platelets. 789 43

Alternations of stomach mucose caused by ethanol are in direct correlation with its concentration. ADH in stomach mucose is an efficient barrier against ethanol system toxicity. It stimulates higher secretion of HC1, dilutes protective barrier of mucose and phospholipids in membranes. Inflammatory reaction also participates in the damage of stomach mucose, with a share of products of arachidonic metabolism and free radicals. After ethanol administration the pancreas blood circulation diminishes and resistance in microcirculation increases. This can cause necroses in periphery of lobules. Activated phospholipase C may result in hypersecretion of Ca2+ dependent proteinkinases. Ischemic changes participate in alcohol impairment of pancreas and increase its vulnerability to enzyme attract and free radical reactions. Ethanol excesses may result in diarrhoea, dyspepsia, malnutrition and cause morphologic alternations of intestinal mucose (erosion, hemorrhagia). Absorption of nutrients and vitamins is affected by inhibition of active transport or by decrease of enzyme activity. Ethanol increases mucose permeability, alteres intestinal motility and damages absorption of water and electrolytes. In chronic alcoholics lower villi and changes in bacterial flora are described. The following mechanism of ethanol caused liver injury are observed: acetaldehyde toxicity, change in NAD+/NADH ratio connected with acidosis, cytoskeletal impairment, inhibition of protein synthesis and their secretion, relative perivenular hypoxia, activation of fibrogenesis, increased formation of free radicals with lipid peroxidation and immunological reaction. In hepatocyte there are morphological changes (megamitochondria, etc.) and functional changes (inhibition of glycolysis, inhibition of Krebs cycle and beta oxidation of fatty acids). Ethanol intake activates leukocytes, trombocytes, endothelial and Kupffer cells and their mediators, which result in increase of collagen and proteoglycans synthesis furthermore in fibrotic changes in liver.
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PMID:[Ethanol metabolism and pathobiochemistry of organ damage--1992. III. Mechanisms of damage to the gastrointestinal tract and the liver by ethanol]. 799 16


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