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:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rabbit serum is shown to contain a cAMP-dependent protein kinase (biochemically characterized as type II) that specifically phosphorylates a 135-kDa endogenous protein. This endogenous phosphorylation can be reproduced with platelet-rich plasma, after stimulation with thrombin, but not with plasma devoid of platelets. Stimulation of isolated platelets ("washed" by gel filtration) with either thrombin or ADP brings about a release of this kinase. The supernatant of these stimulated platelets, which contains the kinase, does not undergo a cAMP-dependent endogenous phosphorylation because it does not contain the 135-kDa protein substrate. On the other hand, plasma devoid of platelets does not contain cAMP-dependent protein kinase. By combining the supernatant of the physiologically stimulated platelets with the plasma devoid of platelets, it is possible to reconstitute the system and to reproduce the specific endogenous phosphorylation of the 135-kDa target substrate. On the basis of the above evidence it is proposed that upon physiological stimulation of platelets, they release into the blood a cAMP-dependent protein kinase in addition to the well-known release of MgATP. This kinase specifically phosphorylates the 135-kDa plasma protein.
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PMID:Platelet stimulation releases a cAMP-dependent protein kinase that specifically phosphorylates a plasma protein. 317 51

Tyrosine phosphorylation of a 42-kD, cytosolic protein is a rapid consequence when quiescent cells are stimulated with any one of a diverse group of mitogenic agents. Among the inducers of this tyrosine phosphorylation are activators of protein kinase C, raising the possibility that this serine/threonine-specific protein kinase plays a role in mitogen-induced tyrosine phosphorylation. Using fibroblastic cells depleted of protein kinase C by chronic treatment with the tumor promoter tetradecanoyl phorbol acetate (TPA), we now show that protein kinase C is required for the tyrosine phosphorylation of the 42-kD protein, even when epidermal growth factor (EGF), whose receptor is a tyrosine-specific protein kinase, provides the initial stimulus. EGF is able to induce other cellular phosphorylations independent of protein kinase C, whereas thrombin appears to require the protein kinase C-dependent pathway. These findings suggest that phosphorylation of the 42-kD protein is part of a protein kinase C-dependent kinase cascade involved in intracellular signalling.
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PMID:Mitogen-stimulated tyrosine phosphorylation of a 42-kD cellular protein: evidence for a protein kinase-C requirement. 325 83

Inositol 1,4,5-trisphosphate (Ins(1,4,5)P3), an intracellular second messenger produced from the hydrolysis of phosphatidylinositol 4,5-bisphosphate, interacts with cytoplasmic membrane structures to elicit the release of stored Ca2+. Ins(1,4,5)P3-induced Ca2+ mobilization is mediated through high affinity receptor binding sites; however, the biochemical mechanism coupling receptor occupation with Ca2+ channel opening has not been identified. In studies presented here, we examined the effects of naphthalenesulfonamide calmodulin antagonists, W7 and W13, and a new selective antagonist, CGS 9343B, on Ca2+ mobilization stimulated by Ins(1,4,5)P3 in neoplastic rat liver epithelial (261B) cells. Intact fura-2 loaded cells stimulated by thrombin, a physiological agent that causes phosphatidylinositol 4,5-bisphosphate hydrolysis and Ins (1,4,5)P3 release, responded with a rise in cytoplasmic free Ca2+ levels that was dose dependently inhibited by W7(Ki = 25 microM), W13 (Ki = 45 microM), and CGS 9343B (Ki = 110 microM). Intracellular Ca2+ release stimulated by the addition of Ins(1,4,5)P3 directly to electropermeabilized 261B cells was similarly inhibited by pretreatment with anti-calmodulin agents. W7 and CGS 9343B, which potently blocked Ca2+/calmodulin-dependent protein kinase, had no significant effect on protein kinase A or C in dose range required for complete inhibition of Ca2+ mobilization. Ca2+ release channels and Ca2+-ATPase pump activity were also unaffected by calmodulin antagonist treatment. These results indicate that calmodulin is tightly associated with the intracellular membrane mechanism coupling Ins(1,4,5)P3 receptors to Ca2+ release channels
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PMID:Inhibition of inositol trisphosphate-stimulated calcium mobilization by calmodulin antagonists in rat liver epithelial cells. 326 69

The major interaction site for tumor-promoting phorbol esters is the calcium-activated, phospholipid-dependent protein kinase (protein kinase C), a key-element in signal transduction. Binding of phorbol esters results in enzyme activation which mediates, at least in part, the action of these agents. We have investigated the effects of tumor promoter chloroform on protein kinase C activity. Like thrombin and 12-O-tetradecanoylphorbol-13-acetate (TPA), chloroform was able to activate protein kinase C in intact rabbit platelets. In addition, chloroform stimulated enzyme activity as well as TPA binding capacity in cell-free system. Scatchard analysis of the data has shown that chloroform increased the number of phorbol ester binding sites. Structurally related compounds, carbon tetrachloride and methylene chloride, activated the enzyme similarly.
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PMID:Tumor promoter chloroform is a potent protein kinase C activator. 382

Myosin light chain kinase plays a central role in the regulation of smooth muscle contraction. The activity of this enzyme is controlled by protein-protein interaction (the Ca2+-dependent binding of calmodulin) and by phosphorylation catalyzed by cAMP-dependent protein kinase. The effects of these two regulatory mechanisms on the conformation of myosin light chain kinase and the locations of the phosphorylation sites, the calmodulin-binding site, and the active site have been probed by limited proteolysis. Phosphorylated and nonphosphorylated myosin light chain kinases were subjected to limited digestion by four proteases having different peptide bond specificities (trypsin, chymotrypsin, Staphylococcus aureus V8 protease, and thrombin), both in the presence and in the absence of bound calmodulin. The digests were compared in terms of gel electrophoretic pattern, distribution of phosphorylation sites, and Ca2+ dependence of kinase activity. A 24 500-dalton chymotryptic peptide containing both sites of phosphorylation was purified and tentatively identified as the amino-terminal peptide. The following conclusions can be drawn: neither phosphorylation nor calmodulin binding induces dramatic changes in the conformation of the kinase; the kinase contains two regions that are particularly susceptible to proteolytic cleavage, one located approximately 25 000 daltons from the amino terminus and the other near the center of the molecule; the two phosphorylation sites are located within 24 500 (probably 17 500) daltons of the amino terminus; the active site is located close to the center of the molecule; the calmodulin-binding site is located in the amino-terminal half of the molecule, between the sites of phosphorylation and the active site, and this region is very susceptible to cleavage by trypsin.
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PMID:Limited proteolysis of smooth muscle myosin light chain kinase. 384 33

We have investigated the epidermal growth factor (EGF)-stimulated tyrosine-specific protein kinase activity in quiescent cultures of diploid human fibroblasts that have a well characterized mitogenic response to EGF. We developed a method of permeabilizing cells with digitonin or other agents that permitted the rapid labeling of cellular proteins with exogenously added [gamma-32P]ATP while allowing only about 25% of marker cytosolic enzymes to escape from the cells. When phosphatases were inhibited with zinc and vanadate, EGF induced up to 8-fold stimulation of the incorporation of radioactivity from [gamma-32P]ATP into a 35-kDa band on sodium dodecyl sulfate gels. Alkali treatment of gels showed that EGF stimulated the phosphorylation of bands with apparent molecular masses of 170, 45, 35, 26, 22, and 21 kDa. Phosphoamino acid analysis was performed on the 170- and 35-kDa bands and revealed that the EGF-stimulated phosphorylation was on tyrosyl residues. The 35-kDa band was resolved into four spots by two-dimensional gel electrophoresis. The most acidic form was the most prominent and it was precipitated by an antiserum against a 35-kDa protein from A-431 cells; heretofore, this protein has only been reported to be phosphorylated in an EGF-dependent manner by A-431 membranes in vitro (Fava, R. A., and Cohen, S. (1984) J. Biol. Chem. 259, 2636-2645). This antiserum also precipitated a 35-kDa phospho-protein from extracts of intact [32P]orthophosphate-labeled fibroblasts which was phosphorylated on tyrosine in an EGF-dependent manner. None of the forms of the 35-kDa phosphoproteins labeled in permeabilized cells were immunologically related to the 34-kDa protein that is a substrate for the tyrosyl kinase encoded by Rous sarcoma virus. Other mitogens (serum, insulin, platelet-derived growth factor, and thrombin) did not detectably stimulate phosphorylation in permeabilized cells.
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PMID:Epidermal growth factor stimulates tyrosine phosphorylation of specific proteins in permeabilized human fibroblasts. 387 22

The influence of the phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA), a direct activator of the Ca2+-activated, phospholipid-dependent protein kinase (protein kinase C), was studied on regulation of human platelet adenylate cyclase. Intact platelets were pretreated with the phorbol ester and, thereafter, membranes were prepared and the regulation of the hormone-sensitive adenylate cyclase in these membranes was studied. The following data were obtained: The TPA treatment applied had apparently no effect on the activity of the catalytic moiety of the platelet adenylate cyclase nor on the stimulatory NS protein nor on stimulatory hormone receptors (prostaglandin E1) and the mutual interactions of these components of the stimulatory hormone-sensitive pathway. However, the TPA treatment of intact platelets largely impaired the GTP-dependent, hormone-sensitive inhibitory pathway to the adenylate cyclase, involving the inhibitory Ni protein. The pretreatment led to a large reduction or loss of adenylate cyclase inhibition by GTP itself and by the inhibitory agonists, epinephrine and thrombin, inhibiting the untreated enzyme via separate receptors by an Ni-mediated process. In contrast, platelet adenylate cyclase inhibition not involving the Ni protein was not affected by the TPA treatment. The observed effects of TPA were very rapid in onset and were not shared by a derivative of TPA which did not activate protein kinase C. The data obtained suggest than protein kinase C activated by the phorbol ester interferes with the platelet adenylate cyclase system, leading to a specific alteration of the Ni-protein-mediated signal transduction to the adenylate cyclase.
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PMID:Modulation of adenylate cyclase of human platelets by phorbol ester. Impairment of the hormone-sensitive inhibitory pathway. 404 Aug 56

Cytoplasmic free calcium ([Ca2+]i) and secretion of ATP were measured in quin2-loaded human platelets. In certain conditions thrombin and collagen cause secretion while [Ca2+]i remains at basal concentrations, a response attributed to activation of protein kinase by diacylglycerol formed by hydrolysis of inositol lipids. This secretion evoked by thrombin could be totally suppressed by prostaglandin I2 or forskolin, as expected from the known ability of cyclic AMP to inhibit phospholipase C. The secretory response evoked by collagen at basal [Ca2+]i and that evoked by exogenous diacylglycerol or phorbol ester, direct activators of protein kinase-C, were much less affected by these inhibitors, suggesting that thrombin and collagen may promote formation of diacylglycerol by different mechanisms.
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PMID:Effects of prostaglandin I2 and forskolin on the secretion from platelets evoked at basal concentrations of cytoplasmic free calcium by thrombin, collagen, phorbol ester and exogenous diacylglycerol. 609 24

Treatment of patients with interferon or inducers of interferon results in an enhanced level of a protein kinase activity found in platelets (1,3). The kinase activity is responsible for the phosphorylation of a 70-72,000 molecular weight protein (72K protein) found in blood plasma. By the means of a technique based on the precipitation of this protein kinase system (the protein kinase and its substrate), we show here that the 72K protein is the alpha-chain of fibrinogen. During the coagulation process induced by thrombin, the 32P-labelled 72K protein is recovered in the clot. After incubation in the presence of thrombin, the 72K protein looses a small polypeptide of 2-3000 in molecular weight resulting a shift in its isoelectric point (pI) from 6.8-7.0 to 7.5. At the end of the coagulation process, the 32P-labelled 72K protein becomes undetectable since it gives rise to a covalently linked alpha-polymer of a high molecular weight. In accord with these results, the 72K protein could be precipitated by antibodies against human fibrinogen.
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PMID:Phosphorylation of the alpha-chain of fibrinogen by a platelet kinase activity enhanced by interferon. 619 71

Interferon-treated mouse and human cells show enhanced levels of a protein kinase activity which is manifested by the phosphorylation of endogenous Mr = 67,000 and 72,000 proteins, respectively. Such kinase activity can be assayed after its partial purification on poly(I) X poly(C)-Sepharose. Under these experimental conditions, the apparent km of the kinase for ATP is 1.0 X 10(-6) M and 2.5 X 10(-6) M in enzyme fractions from mouse L-929 and human HeLa cells, respectively. The Mr = 67,000 and 72,000 proteins are phosphorylated by their serine and threonine residues, the ratio of which is modified in preparations from interferon-treated cells. Both of these phosphoproteins are composed of several subspecies with similar isoelectric points (pIs) in the range of 7.2 to 8.2. This heterogeneity is due to the number of phosphate groups per molecule of protein. Accordingly, the pIs of highly phosphorylated proteins are at a less basic pH (7.2 to 7.5). Furthermore, highly phosphorylated proteins show an increase in their apparent molecular weights compared to partially phosphorylated ones. This corresponds to an increase of Mr = 1,500. Partial proteolysis of the 32P-labeled Mr = 67,000 and 72,000 proteins by Staphylococcus aureus V8 protease, alpha-chymotrypsin and thrombin, indicated that these phosphoproteins differ in their polypeptide structure. Phosphorylation of the Mr = 67,000 and 72,000 proteins in enzyme fractions from control L-929 and HeLa cells is enhanced by mixing with extracts from interferon-treated heterologous cells. Proteins, Mr = 67,000 and 72,000, therefore, may serve as suitable substrates for an exogenous kinase, thus indicating that the substrate in enzyme fractions from control cells is less phosphorylated because of a low level of kinase activity.
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PMID:Further characterization of the protein kinase activity mediated by interferon in mouse and human cells. 620 11


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