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)

Cardiac fibroblasts appear to be important in producing and maintaining the extracellular matrix (ECM) of the heart. The abnormal proliferation of cardiac fibroblasts and deposition of the ECM protein, collagen, associated with hypertension and myocardial infarction, may adversely affect the performance of the heart. Several groups of factors affect collagen gene expression and/or growth of cardiac fibroblasts. Angiotensin II, aldosterone and endothelins play a central role in the remodeling of the ECM in hypertension, and decrease collagenase activity and/or increase collagen synthesis in cultured cells. Regulatory peptides that are generally elevated at sites of injury, such as TGF-beta 1 and PDGF, increase collagen synthesis and/or stimulate mitogenesis. Mechanical stretch enhances collagen expression and cell proliferation, responses which could in part be due to integrin activation. Cytokines may stimulate or inhibit cell growth, the latter through prostaglandin formation. Angiotensin II is a principal determinant in vivo of cardiac fibroplasia and synthesis of the ECM proteins, collagen and fibronectin. Cardiac fibroblasts possess G-protein-coupled AT1 receptors for angiotensin II that couple to activation of multiple signalling pathways, including: phospholipase C-beta, with the subsequent release of Ca2+ from intracellular stores and activation of protein kinase C, mitogen-activated protein kinases, tyrosine kinases, phospholipase D, phosphatidic acid formation, and the STAT family of transcription factors. Cardiac fibroblasts respond to angiotensin II with hyperplastic/hypertrophic growth, and increased expression of collagen, fibronectin, and integrins. The mechanisms by which the AT1 receptor activates multiple signalling pathways are not known, although the receptor might interact at some level with both integrins and cytokine receptors. Different signalling pathways of the AT1 receptor may subserve different cellular responses, such as mitogenesis, ECM synthesis, or an inflammatory/stress response. Crosstalk among the signalling pathways of the AT1 receptor, and those of G-protein, cytokine, and growth-factor receptors, may determine the ultimate response of the cell.
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PMID:Molecular signalling mechanisms controlling growth and function of cardiac fibroblasts. 857 2

Extracellular matrix (ECM) molecules, such as fibronectin (FN), regulate fibroblast sensitivity to soluble growth factors, in part, by controlling cellular levels of phosphatidylinositol bis-phosphate (PIP2), the substrate for phospholipase C-gamma (McNamee et al., 1993, J. Cell Biol. 121, 673-678). In the present study, we extended these investigations by exploring whether cells of the vascular wall also exhibit this response and analyzing the mechanism by which adhesion to ECM regulates intracellular PIP2 mass. Capillary endothelial cells, pulmonary vascular smooth muscle cells, and C3H 101/2 fibroblasts were all found to exhibit a similar two- to threefold increase in PIP2 mass within 3 h after binding to dishes coated with FN. Furthermore, similar effects were observed using dishes coated with a variety of different ECM molecules, including collagen types I and IV as well as a synthetic RGD-containing peptide. An increase in PIP2 mass also was produced when suspended cells bound to microbeads (4.5 micron diameter; coated with RGD-peptide or anti-integrin beta 1 antibody) that induce local integrin clustering and focal adhesion formation, independently of cell spreading. In contrast, neither binding of soluble FN nor binding of microbeads coated with ligands for other transmembrane surface receptors (e.g., acetylated low-density lipoprotein, antibodies against heparan sulfate) had any effect on PIP2 mass. While these results suggest that integrin clustering stimulates PIP2 synthesis, no change in total cellular or cytoskeletal-associated phosphatidylinositol-4-phosphate kinase (PIP kinase) activity could be detected when cells bound to immobilized integrin ligands. However, when focal adhesion complexes were isolated from these cells using a magnetic procedure (G. Plopper and D. E. Ingber, 1993, Biochem. Biophys. Res. Commun. 193, 571-578), this subfraction of the cytoskeleton was found to be enriched for PIP kinase activity by more than twofold relative to the whole cytoskeleton. These data suggest that ECM binding may increase PIP2 mass in vascular cells by clustering cell surface integrin receptors and activating cytoskeletal-associated PIP kinases locally within the focal adhesion complex.
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PMID:Integrin-dependent control of inositol lipid synthesis in vascular endothelial cells and smooth muscle cells. 861 75

Thrombopoietin (TPO), also known as the c-mpl ligand, stimulates rapid tyrosine phosphorylation of multiple proteins in human platelets including the Janus family kinases JAK2 and TYK2. On its own, TPO has no effect on platelet aggregation and dense-granule secretion but induces a general potentiation of these responses by other stimuli. The most dramatic effect is observed against threshold concentrations of agonists for aggregation. Shape change or weak reversible aggregation induced by low concentrations of thrombin, collagen and the thromboxane mimetic, U46619, are converted into irreversible aggregation in the presence of TPO. A similar result is obtained in the presence of the ADP scavenger apyrase and cyclo-oxygenase inhibitor indomethacin. TPO also induces potentiation of dense-granule secretion measured through release of 5-hydroxy[3H]-tryptamine. This effect is most striking against low concentrations of stimuli and is independent of aggregation as it is observed in the presence of chelation of extracellular Ca2+ with EGTA. TPO potentiates activation of phospholipase C and elevation of intracellular Ca2+, providing a molecular explanation for potentiation of functional responses. TPO may have an important physiological role in priming platelet activation in thrombocytopenia, an action that may help to compensate for the reduced platelet density.
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PMID:Thrombopoietin potentiates activation of human platelets in association with JAK2 and TYK2 phosphorylation. 864 38

Activation of circulating platelets by subendothelial collagen is an essential event in vascular hemostasis. In human platelets, two membrane glycoprotein (GP) abnormalities, integrin alpha2 beta1 deficiency and GPVI deficiency, have been reported to result in severe hyporesponsiveness to fibrillar collagen. Although it has been well established that integrin alpha2 beta1, also known as the GPIa-IIa complex, functions as a primary platelet adhesion receptor for collagen, the mechanism by which GPVI contributes to collagen-platelet interaction has been ill defined to date. However, our recent observation that GPVI cross-linking couples to cyclic AMP-insensitive activation of c-Src and Syk tyrosine kinases suggested a potential role for GPVI in regulating protein-tyrosine phosphorylation by collagen (Ichinohe, T., Takayama, H., Ezumi, Y., Yanagi, S., Yamamura, H., and Okuma, M. (1995) J. Biol. Chem. 270, 28029-28036). To further investigate this hypothesis, here we examined the collagen-induced protein-tyrosine phosphorylation in GPVI-deficient platelets expressing normal amounts of alpha2 beta1. In response to collagen, these platelets exhibited alpha2 beta1-dependent c-Src activation accompanied by tyrosine phosphorylation of several substrates including cortactin. In contrast, severe defects were observed in collagen-stimulated Syk activation and tyrosine phosphorylation of phospholipase C-gamma2, Vav, and focal adhesion kinase, implicating a specific requirement of GPVI for recruiting these molecules to signaling cascades evoked by collagen-platelet interaction.
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PMID:Collagen-stimulated activation of Syk but not c-Src is severely compromised in human platelets lacking membrane glycoprotein VI. 899 28

Activation of platelets by collagen is mediated through a tyrosine kinase-dependent pathway that is associated with phosphorylation of the Fc receptor gamma chain, the tyrosine kinase syk, and phospholipase C gamma2 (PLC gamma2). We recently described a collagen-related triple-helical peptide (CRP) with the sequence GCP*(GPP*)GCP*G (single letter amino acid code: P* = hydroxyproline; Morton et al, Biochem J306:337, 1995). The cross-linked peptide is a potent stimulus of platelet activation but, unlike collagen, does not support alpha2beta1-mediated, Mg2+-dependent adhesion, suggesting that its action is independent of the integrin alpha2beta1. This finding suggests the existence of a platelet receptor other than alpha2beta1 that underlies activation. In the present study, we show that CRP stimulates tyrosine phosphorylation of the same pattern of proteins in platelets as collagen, including syk and PLC gamma2. Protein tyrosine phosphorylation induced by CRP is not altered in the absence of Mg2+ or the presence of monoclonal antibodies (MoAbs) to the integrin alpha2beta1 (MoAb 6F1 and MoAb 13), conditions that prevent the interaction of collagen with the integrin. In contrast, phosphorylation of syk and PLC gamma2 by collagen is partially reduced by MoAb 6F1 and MoAb 13 or by removal of Mg2+. This may reflect a direct role of alpha2beta1 in collagen-induced signaling events or an indirect role in which the integrin facilitates the binding of collagen to its signaling receptor. The results show an alpha2beta1-independent pathway of platelet activation by CRP that involves phosphorylation of syk and PLC gamma2. This pathway appears to contribute to platelet activation by collagen.
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PMID:A collagen-like peptide stimulates tyrosine phosphorylation of syk and phospholipase C gamma2 in platelets independent of the integrin alpha2beta1. 902 46

Thrombopoietin has an essential role in megakaryopoiesis and thrombopoiesis. To investigate the signaling processes induced by thrombopoietin, we have employed human platelets and recently demonstrated that thrombopoietin induces rapid tyrosine phosphorylation of Jak-2, Tyk2, Shc, Stat3, Stat5, p120(c-cbl) and other proteins in human platelets. Because the apparent molecular weight of a major tyrosine phosphorylated protein in platelets stimulated by thrombopoietin is approximately 85 to 95 kD, we examined the possibility that this could be Vav, a 95-kD proto-oncogene product. Specific antisera against Vav recognized the same 95 kD protein in lysates of Jurkat cells, which are known to express Vav, and platelets, indicating that platelets have Vav. Thrombopoietin induced rapid tyrosine phosphorylation of Vav in platelets without an elevation in cytosolic free calcium concentration or activation of protein kinase C. Vav was also tyrosine phosphorylated upon treatment of platelets with thrombin, collagen, or U46619, which activate phospholipase C, leading to an increased ionized calcium concentration and activation of protein kinase C. Ionomycin or phorbol 12-myristate 13-acetate (PMA) also induces tyrosine phosphorylation of Vav, suggesting that an increase in ionized calcium concentration or activation of protein kinase C may lead to phosphorylation of Vav. Thrombopoietin also induced tyrosine phosphorylation of Vav in FDCP-2 cells, genetically engineered to express human c-Mpl (FDCP-hMpl5). However, neither ionomycin nor PMA induced an increase in tyrosine phosphorylation of Vav in FDCP-hMpl5 cells, suggesting that the calcium and protein kinase C pathways of Vav phosphorylation may be unique to platelets. Further, Vav became incorporated into the Triton X-100 insoluble 10,000 g sedimentable residue in an aggregation-dependent manner, suggesting that it may have a regulatory role in platelet cytoskeletal processes. Vav was constitutively associated with a 28-kD adapter protein, Grb2, which is also incorporated into the cytoskeleton in an aggregation-dependent fashion. Lastly, we found that Vav is cleaved when there is activation of calpain, a protease that may have a role in postaggregation signaling processes. Our data suggest that thrombopoietin and other agonists may induce tyrosine phosphorylation of Vav by different mechanisms and Vav may also be involved in signaling during platelet aggregation by its redistribution to the cytoskeleton.
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PMID:Thrombopoietin and thrombin induce tyrosine phosphorylation of Vav in human blood platelets. 910 97

We have identified a novel cellular action of thrombin on cultured rat adrenal medullary endothelial cells (RAMEC). Five-minute incubation of RAMEC with physiological concentrations of thrombin (<1 U/ml) caused within 3 h an increase in the basolateral deposition of the extracellular matrix (ECM) proteins fibronectin, laminin, and collagens IV and I, concomitant with a corresponding decrease in the apical release of these proteins into the medium. This shift in vectorial secretion of ECM proteins, quantitated with enzyme-linked immunoassays, was time dependent. Maximal stimulation of ECM protein deposition was observed after incubation of cells with thrombin for 5-15 min. Prolonged exposure (>1 h) to thrombin resulted in loss of proteins from the ECM. Thrombin-stimulated ECM protein deposition exhibited a bell-shaped dose dependence, peaking for all proteins at 0.25 U/ml of thrombin, and was independent of de novo mRNA or protein synthesis. Maximal amounts of deposited proteins increased between 2.5-fold (fibronectin) and 4-fold (collagen I) over baseline values. Similar results were obtained with thrombin receptor agonist peptide (TRAP), proteolytically active gamma-thrombin, and, to a lesser extent, other serine proteases such as trypsin and plasmin. A scrambled TRAP, proteolytically inactive PPACK-thrombin, DIP-thrombin, and type IV collagenase were ineffective. Together, these results suggest that the thrombin effects are mediated by proteolytic activation of the thrombin receptor. Possible involvement of the phospholipase C-signaling pathway in thrombin-mediated ECM protein deposition was also investigated. Inhibition or downregulation of protein kinase C (PKC) and chelation of intracellular or extracellular Ca2+ did not suppress, but rather enhanced, basal and thrombin-stimulated ECM protein deposition. Quantitative differences in augmentation of basolateral deposition by these treatments suggest differential regulatory pathways for individual ECM proteins. Our data indicate that, in cultured RAMEC, short-term activation of the thrombin receptor causes an increase in amounts of deposited ECM protein by a cellular signaling pathway that is independent of PKC activation and/or elevation of intracellular Ca2+.
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PMID:Thrombin modulates vectorial secretion of extracellular matrix proteins in cultured endothelial cells. 914 35

U73122 is known as an inhibitor of phospholipase C (PLC; EC 3.1.4.11). Its close structural analogue, U73343, lacks this activity and is used as a control compound. We have found that both compounds interfere with platelet signal transduction. U73122 completely abolished aggregation evoked by thrombin, TG, and collagen. Aggregation evoked by TG and collagen was also blocked by U73343, an effect due to inhibition of TxA2 production. U73343 was a potent inhibitor of TG-evoked arachidonic acid release, but a weak inhibitor of cytosolic phospholipase A2 (cPLA2; EC 3.1.1.4) activity. Cytosolic PLA2 activation in platelets involves protein tyrosine phosphorylation. U73343 inhibited TG- and collagen-evoked protein tyrosine phosphorylation, which can thus explain its action against these agents. These data indicate that caution is needed when using U73343 along with U73122 in the study of intracellular signalling pathways.
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PMID:Human platelet activation is inhibited upstream of the activation of phospholipase A2 by U73343. 921 86

Convulxin, a very potent aggregating protein from rattlesnake venom, was purified by a new procedure and its heterodimeric structure alpha 3 beta 3 was confirmed. The polypeptide N-terminal sequences of convulxin subunits were determined by Edman degradation. They are very similar and appear homologous to botrocetin from Bothrops jararaca venom and to rattlesnake lectin from Crotalus atrox venom, both being classified among the C-type lectin family. The binding of 125I-labelled convulxin to blood platelets has also been analysed under equilibrium conditions. These studies indicated that convulxin binds to platelets with a high affinity (Kd = 30 pM) on a small number of binding sites (1000 binding sites per cell). The high-affinity binding of convulxin appears specific to platelets, since it is not observed on other cell types such as neutrophils and erythrocytes. Also, the high-affinity binding of convulxin to membranes platelet is not inhibited by alpha-thrombin, fibrinogen, collagen, laminin binding inhibitor, RGDS peptide, adenosine diphosphate, platelet-activating factor-acether, serotonin or epinephrine. This, together with the recent observation that platelet activation by convulxin is partially mediated by phospholipase C and involves other mechanisms as well, indicates that convulxin may interact with a specific platelet acceptor (receptor) protein which has yet to be characterized.
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PMID:Convulxin, a potent platelet-aggregating protein from Crotalus durissus terrificus venom, specifically binds to platelets. 927 71

Study of fibroblast origins and lineages is complicated by the lack of unambiguous markers that could be used to identify discrete subpopulations on the basis of functional attributes. We have studied the role of the membrane-anchored hydrolytic enzyme tissue-nonspecific alkaline phosphatase (TN-AP) and the placental alkaline phosphatase (PL-AP) in collagen phagocytosis and in the deletion of cells by apoptosis. Rat-2 cells, which do not constitutively express AP, were transfected with full-length rat TN-AP or PL-AP cDNAs to determine the impact of the TN-AP collagen-binding domain on cell function. Various levels of expression were driven by early (strong) or late (weak) SV40 promoters in the plasmid construct. Controls were transfected with plasmids that did not contain AP cDNA. AP expression in transfected cells was confirmed by Northern blotting, histochemical analysis, and SDS-PAGE analysis of membrane-anchored enzyme released by phosphatidyl inositol phospholipase C. Low levels of TN-AP expression increased cell spreading slightly, nearly doubled the percentage of collagen phagocytic cells (up to 80%), and increased the number of internalized collagen-coated fluorescence beads per cell. In cells transfected with PL-AP (i.e., no collagen-binding domain), collagen phagocytosis was not affected. Internalization of BSA beads was also not affected by either AP isozyme, indicating that AP was selective for integrin-mediated phagocytosis. In single cells, histochemically demonstrable TN-AP activity on cell membranes was colocalized with the binding of collagen beads, but this colocalization was not detected in cells transfected with PL-AP. Phagocytosis was inhibited by antibodies to the alpha 2 integrin and to AP but not by levamisole, an inhibitor of AP phosphohydrolytic activity. High-level TN-AP expression caused a fivefold reduction of cell proliferation and was associated with the development of cells with sub-G1 DNA content, nuclear condensation, and nuclear budding. In AP-positive cultures, there was a greatly increased number of floating cells; nick-labeling of DNA by terminal transferase and biotinylated dUTP showed a 15-fold increase of stained cells. These data indicate that low-level TN-AP expression enhances collagen phagocytosis, presumably through the TN-AP collagen-binding domain. High-level AP expression promotes cell deletion by apoptosis. We suggest that the expression of AP by fibroblasts indicates a novel role for this enzyme in collagen degradation by phagocytosis.
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PMID:Collagen phagocytosis and apoptosis are induced by high level alkaline phosphatase expression in rat fibroblasts. 928 52


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