EC:3.1.4.3 - FACTA Search

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)

Cytokines, in particular IL-1, released mainly by infiltrating macrophages, can be one of the key mediators of immune-induced beta-cell destruction in IDDM. IL-1 is able to induce suppression of insulin release and biosynthesis in cultured rat pancreatic islets. In addition, the cytokine shows clear cytotoxic effects leading to beta-cell death. The proposed mechanisms of action of IL-1 after binding to the beta-cell receptors are varied. Concerning the cytotoxic effects of the cytokine, the role of oxygen free radicals, mainly derived from arachidonate metabolism (see Fig. 1) is clear, and possibly potentiated by a cytosolic Na(+)-mediated alkalinization of the beta-cell exposed to the cytokine. In fact, an increased influx of Na+ may explain some of the cytotoxicity since it results in concomitant water uptake leading to swelling of the endoplasmic reticulum. NO formation also seems to be related to the cytokine-induced cytotoxicity since inhibition of the NO synthase abolishes the effects of the cytokine (see Fig. 1). In relation to the inhibitory effects of the cytokine on the beta-cell, different studies point toward almost all known second messenger systems already described for several hormones, such as cAMP formation, increased phospholipase C activity, changes in cytosolic Ca++, and altered gene transcription (see Fig. 1). Of particular interest is the protease activation associated with IL-1 (a serine protease) that seems to be clearly connected with the effects of the cytokine upon the beta-cell. In conclusion, the different studies devoted to the problem of IL-1 signal transduction on the beta-cell seem to indicate that the action of the cytokine on the pancreatic insulin-secreting cells is not associated with an individual second messenger system but rather seems to be related to a plurifactorial transduction system.
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PMID:Interleukin-1 and beta-cell function: more than one second messenger? 142 86

The serine protease alpha-thrombin (thrombin) potently stimulates G-protein-coupled signaling pathways and DNA synthesis in CCL39 hamster lung fibroblasts. To clone a thrombin receptor cDNA, selective amplification of mRNA sequences displaying homology to the transmembrane domains of G-protein-coupled receptor genes was performed by polymerase chain reaction. Using reverse transcribed poly(A)+ RNA from CCL39 cells and degenerate primers corresponding to conserved regions of several phospholipase C-coupled receptors, three novel putative receptor sequences were identified. One corresponds to an mRNA transcript of 3.4 kb in CCL39 cells and a relatively abundant cDNA. Microinjection of RNA transcribed in vitro from this cDNA in Xenopus oocytes leads to the expression of a functional thrombin receptor. The hamster thrombin receptor consists of 427 amino acid residues with 8 hydrophobic domains, including one at the extreme N-terminus that is likely to represent a signal peptide. A thrombin consensus cleavage site is present in the N-terminal extracellular region of the receptor sequence followed by a negatively charged cluster of residues present in a number of proteins that interact with the anion-binding exosite of thrombin.
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PMID:cDNA cloning and expression of a hamster alpha-thrombin receptor coupled to Ca2+ mobilization. 165 67

Human red blood cells (RBC) were infected with the malarial parasite Plasmodium falciparum, the anchoring of schizont proteins to RBC membranes by glycoinositol phospholipids was demonstrated by three criteria: (1) metabolic incorporation of 3H-ethanolamine and 3H-myristate into the protein; (2) release of 35S-methionine-labelled protein into the supernatant after incubation with phosphatidylinositol-specific phospholipase C; and (3) the exposure of a glycoinositol phosphate epitope on the methionine-labelled protein following phospholipase C cleavage. Labelled proteins were analysed by immunoprecipitation, polyacrylamide gel electrophoresis in sodium dodecylsulphate and gel fluorography. Several candidate proteins were observed when each criteria was investigated. Among these, 3 proteins which met all three criteria were identified by immunoprecipitation with monospecific sera or monoclonal antibodies. These included 3 possible vaccine candidates, the p190 major surface antigen, the p76 serine protease and the p71 protein which is thought to be a member of the family of heat-shock Hsp70 proteins.
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PMID:Glycolipid anchorage of Plasmodium falciparum surface antigens. 170 12

Thrombin is believed to activate platelets via cell surface receptors coupled to G proteins. In order to better understand this process, we have examined the interaction of thrombin with HEL cells, a leukemic cell line that has served as a useful model for studies of platelet structure and function. In HEL cells, as in platelets, thrombin stimulated inositol trisphosphate (IP3) formation and suppressed cAMP synthesis. Both events were inhibited by pertussis toxin with 50% inhibition occurring at a toxin concentration that ADP-ribosylated 50% of the Gi alpha subunits present in HEL cells. IP3 formation was also stimulated by a second serine protease, trypsin. The trypsin response was identical to the thrombin response in time course, magnitude, and pertussis toxin sensitivity, suggesting that a similar mechanism is involved. Agonist-induced changes in the cytosolic-free Ca2+ concentration were used to test this hypothesis. Both proteases caused a transient increase in intracellular calcium [Ca2+]i that could be inhibited with D-phenylalanyl-L-prolyl-L-arginine chloromethyl ketone thrombin. Exposure to either protease desensitized HEL cells against subsequent increases in [Ca2+]i and IP3 caused by the other, although responses to other agonists were retained. This loss of responsiveness persisted despite repeated washing of the cells and the addition of hirudin. Complete recovery occurred after 20 h and could be prevented with cycloheximide. These observations suggest that 1) HEL cell thrombin receptors, like those on platelets, are coupled to phospholipase C and adenylylcyclase by pertussis toxin-sensitive G proteins, 2) the G proteins involved are equally accessible to pertussis toxin in situ, 3) when access is limited to the outside of the cell the response mechanisms for thrombin and trypsin are similar, if not identical, despite the broader substrate specificity of trypsin, 4) both proteases cause persistent changes that may involve proteolysis of their receptors or associated proteins, and 5) desensitization of the thrombin response occurs at a step no later than the activation of phospholipase C and requires protein synthesis for recovery.
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PMID:Receptor and G protein-mediated responses to thrombin in HEL cells. 184 99

Factor X-activating activity (FXAA) was determined by a chromogenic assay in normal and malignant breast tissue. FXAA was found in all tissue (n = 38) irrespective of pathology, and the activity of normal tissue was similar to that of tumours. FXAA correlated with tissue hemoglobin in normal breast (p less than 0.02) but not in tumours. FXAA was markedly reduced by aluminium hydroxide, barium citrate, anti-human factor VII, DFP, PMSF and phospholipase C, but was unaffected by iodoacetamide and mercuric chloride. It is concluded that FXAA is a serine protease with the properties of a tissue factor-factor VII complex. FXAA occurs in normal and malignant breast tissue, although the 'normal' activity may be an artefact of the homogenization process.
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PMID:Factor X-activating procoagulant in normal and malignant breast tissue. 228 55

Thrombin stimulates polyphosphoinositide hydrolysis in embryonic chick heart cells and in 1321N1 astrocytoma cells and increases intracellular Ca2+ in the 1321N1 cells. The serine protease trypsin mimics these actions in a dose-dependent fashion, whereas the proteolytically inactive thrombin derivatives diisopropyl fluorophosphate-thrombin (DIP-thrombin) and D-phenylalanyl-L-prolyl-L-arginine chloromethyl ketone-thrombin (PPACK-thrombin) are ineffective in this regard. The phosphoinositide responses to thrombin or trypsin and the muscarinic agonist carbachol are additive, but no additivity is observed between the responses to thrombin and trypsin. Unlike the response to carbachol, the phosphoinositide and Ca2+ responses to thrombin and trypsin desensitize, with no recovery of the calcium response even when Ca2+ stores are replenished. Cross-desensitization of phospholipase C activation and calcium mobilization between these proteases is also observed. In addition, PPACK-thrombin, which elicits no response itself, effectively inhibits trypsin-stimulated phosphoinositide hydrolysis. It is proposed that thrombin and trypsin act through the same receptor. Proteolysis appears to be important in the mechanism by which these agonists elicit phosphoinositide hydrolysis, calcium mobilization, and, perhaps, subsequent receptor desensitization.
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PMID:Thrombin and trypsin act at the same site to stimulate phosphoinositide hydrolysis and calcium mobilization. 254 47

The possibility that thrombin-induced platelet reactivity could occur via both a receptor-related and a proteolytic process was examined. Thrombin elicited the formation of considerably more [32P]phosphatidic acid (an index of phospholipase C catalysed phosphoinositide metabolism) than did platelet activating factor, 5-hydroxytryptamine, ADP, and the thromboxane A2 analogue EP171, when these agents were added either alone or in combination. Co-addition of thrombin and EP171 did not evoke significantly more [32P]phosphatide acid than did thrombin alone. The protease inhibitor leupeptin, decreased but did not abolish [32P]phosphatidic acid formation elicited by either thrombin alone or thrombin in combination with EP171. The serine protease, trypsin, stimulated an increase in [32P]phosphatidic acid and this effect was additive with that of EP171. This augmentation by trypsin of EP171-induced [32P]phosphatidic acid formation was inhibited by leupeptin. These results are consistent with the concept that thrombin-induced activation of phospholipase C occurs by two distinct mechanisms: one via proteolysis, which is sensitive to leupeptin, and the other via receptor activation, a process shared by EP171. The individual components of this dual mechanism can be mimicked by the co-addition of a receptor-directed agonist (EP171) and a proteolytic agent (trypsin).
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PMID:Evidence for two mechanisms of thrombin-induced platelet activation: one proteolytic, one receptor mediated. 255 47

A BAL17 B lymphoma cell line bearing mu and delta chains on its surface behaves in a similar manner to normal mature B cells in terms of initial biochemical transmembrane signalling [Mizuguchi, Beaven, Ohara & Paul (1986) J. Immunol. 137, 2162-2167; Mizuguchi, Yong-Yong, Nakabayashi, Huang, Beaven, Chused & Paul (1987) J. Immunol. 139, 1054-1059]. Therefore the effects of protease inhibitors on increases in inositol phospholipid metabolism and intracellular free calcium concentration ([Ca2+]i) were examined. We show that the serine protease inhibitors Tos-Phe-CH2Cl (1-chloro-4-phenyl-3-L-tosylamidobutan-2-one-, TPCK) and Tos-Lys-CH2Cl (7-amino-1-chloro-3-L-tosylamidoheptan-2-one; TLCK) inhibit anti-IgM-mediated accumulation of inositol phosphates in a dose-dependent manner. InsP3 production induced by anti-IgM is also inhibited by pretreatment with Tos-Lys-CH2Cl or Tos-Phe-CH2Cl. Tos-Lys-CH2Cl- Tos-Phe-CH2Cl-mediated inhibition is not overcome by high concentrations of anti-IgM. Moreover, anti-IgM-mediated increases in [Ca2+]i are inhibited by pretreatment of the cells with these inhibitors. However, increases in inositol phospholipid metabolism caused by NaF, an activator of guanine-nucleotide-binding proteins (G-proteins), are approx. 10-fold more resistant to Tos-Lys-CH2Cl and Tos-Phe-CH2Cl inhibition compared with anti-IgM-induced changes. Furthermore, NaF-induced increases in [Ca2+]i are not inhibited by Tos-Lys-CH2Cl or Tos-Phe-CH2Cl pretreatment, suggesting that the inhibitors act at a step proximal to phospholipase C activation. The Tos-Lys-CH2Cl or Tos-Phe-CH2Cl treatment does not change the membrane IgM density as measured by flow cytometry, indicating that the active site of the inhibitors is distal to the membrane IgM molecule. These results indicate that serine proteases may be involved in coupling the receptor cross-linkage to G-protein.
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PMID:Differential sensitivity of anti-IgM-induced and NaF-induced inositol phospholipid metabolism to serine protease inhibitors in BAL17 B lymphoma cells. 255 5

Biochemical events involved in both IgE-dependent and IgE-independent mediator release from basophils and mast cells were analyzed. The results revealed that bridging of IgE receptors activates a variety of membrane-associated enzymes, such as serine protease, phospholipase C, methyltransferases and adenylate cyclase, resulting in the stimulation of phosphatidylinositol (PI) turnover and a transient increase in both phospholipid methylation and intracellular cAMP. Mobilization of intracellular Ca2+ monitored by Quin-2 fluorescence is detected within 5 s after antigen challenge and appears to be the earliest intracellular change detectable after receptor bridging. Stimulation of PI turnover results in the generation of inositol 1,4,5-triphosphate (IP3) and of 1,2-diacylglycerol (DAG), which in turn activates protein kinase C. Evidence was obtained that the guanyl nucleotide (GTP)-binding protein Ni is not involved in the transduction of IgE-mediated triggering signals for mediator release. Although the sequence of enzyme activation following receptor bridging is not clear, the results suggest that the mobilization of intracellular Ca2+ is a crucial initial signal in the IgE-mediated activation of basophils and mast cells. In the mediator release induced by IgE-independent stimuli, enzymes involved in the mediator release are different from one stimulus to another. The results indicate the presence of multiple biochemical pathways for mediator release from basophils and mast cells.
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PMID:Activation of basophils and mast cells for mediator release. 310 38

The serine protease inhibitors diethyl p-nitrophenyl phosphate and phenylmethylsulfonyl fluoride (chemical modifiers of serine residue) and N-acetyl-l-tryptophan ethyl ester (competitive inhibitor of chymotryptic protease) inhibited 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine (AGEPC; platelet-activating factor)-induced platelet aggregation and secretion. The inhibition was dependent on the preincubation time with the serine protease inhibitor and on the concentration of AGEPC and inhibitor. The IC50 value of diethyl-p-nitrophenyl phosphate, phenylmethylsulfonyl fluoride, and N-acetyl-l-tryptophan ethyl ester towards 5 X 10(-10) M AGEPC in serotonin release was 2.2 X 10(-4), 8.0 X 10(-4), and 5.0 X 10(-4) M, respectively. In experiments where platelets were incubated with these inhibitors and then washed with buffer, the inhibition of AGEPC stimulation was not observed. Prostaglandin H2 analog U46619 (10(-6) to 10(-5) M)- and thrombin (0.1 unit/ml)-induced platelet activation were also blocked by 1 mM diethyl p-nitrophenyl phosphate and 1 mM N-acetyl-l-tryptophan ethyl ester. The binding of AGEPC (1.5 X 10(-11) to 9.4 X 10(-10) M) to platelets and the platelet cyclic AMP level were not affected by diethyl p-nitrophenyl phosphate, phenylmethylsulfonyl fluoride, and N-acetyl-l-tryptophan ethyl ester. However, 1 mM diethyl p-nitrophenyl phosphate and 1 mM N-acetyl-l-tryptophan ethyl ester suppressed 10(-9) M AGEPC-induced breakdown of phosphatidylinositol 4,5-bisphosphate and formation of phosphatidic acid to 10-12 and 39-42%, 40-kDa protein phosphorylation to 4 and 30%, and arachidonic acid release to 17 and 28% of controls, respectively. On the other hand, 5 mM diethyl p-nitrophenyl phosphate did not inhibit diacylglycerol production and arachidonic acid release initiated by 2.5 mM deoxycholate treatment, suggesting that receptor-mediated phospholipase C and phospholipase A2 activation were inhibited by the serine protease inhibitor, but the deoxycholate (physicochemical stimulant)-initiated activation was not. AGEPC-induced 20-kDa protein phosphorylation and the inhibitory action of AGEPC on cyclic AMP accumulation were abolished in the presence of diethyl p-nitrophenyl phosphate and phenylmethylsulfonyl fluoride. However, a tryptic protease inhibitor, 1 mM p-aminobenzamidine and 1 mM benzoyl-l-arginine methyl ester, did not prevent the AGEPC-induced platelet secretion.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Platelet-activating factor stimulation of rabbit platelets is blocked by serine protease inhibitor (chymotryptic protease inhibitor). 310 43

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