EC:3.4.21.5 - FACTA Search

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)

Radioactive PtdIns(3)P was detected in human platelets incubated with [32P]Pi, but remained unaffected by thrombin treatment. In contrast, [32P]PtdIns(3,4)P2 was absent from resting platelets, but was produced by thrombin-activated platelets in a dose- and time-dependent manner. [32P]PtdInsP3 was never found under these conditions. These changes are similar to those elicited in other cells by platelet-derived growth factor or the oncogene product pp60c-src.
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PMID:The novel inositol lipid phosphatidylinositol 3,4-bisphosphate is produced by human blood platelets upon thrombin stimulation. 216 65

A wide variety of agonist-induced events appear to be mediated through an increase in cellular diglyceride levels. With regard to the ability of diglycerides to mediate these events, three important parameters must be considered: a) the kinetics of diglyceride generation, b) the absolute mass levels, and c) their molecular species. While this increase is often due to a stimulated hydrolysis of phosphoinositides, there is increasing evidence that the stimulated hydrolysis of phosphatidylcholine also contributes to agonist-induced increases in diglyceride levels. The kinetics of mass increases in diglyceride levels stimulated in cultured fibroblasts are agonist-dependent. High concentrations of alpha-thrombin stimulate a biphasic increase in diglyceride levels with the first phase peaking at 15 s and the second phase peaking at 5 min. In contrast, stimulation with epidermal growth factor, or platelet-derived growth factor, results in a monophasic increase in cellular diglyceride levels. Furthermore, the molecular species and phospholipid source of the stimulated diglycerides are also agonist-dependent. While the hydrolysis of phosphoinositides is major source of diglycerides initially generated in response to some agonists (15 s with alpha-thrombin at 500 ng/ml), phosphatidylcholine is hydrolyzed as well. Following longer incubations, or at all times following stimulation by epidermal growth factor or platelet-derived growth factor, phosphatidylcholine hydrolysis is the principal source of the stimulated diglycerides.
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PMID:Kinetic and molecular species analyses of mitogen-induced increases in diglycerides: evidence for stimulated hydrolysis of phosphoinositides and phosphatidylcholine. 217 45

Growth factors and transforming proteins that activate tyrosine phosphorylation have been shown to cause an increased labeling of 3-phosphate-containing phosphatidylinositols. Turnover correlates with the formation of a complex between phosphatidylinositol 3-kinase, the activated protein-tyrosine kinase, and other proteins thought to participate in transmembrane signaling. When human platelets are treated with thrombin, labeling of 3-phosphate-containing phosphatidylinositols is stimulated with a time course and concentration dependence consistent with a role for these lipids in platelet activation. We now report that when human platelets are stimulated with thrombin, a complex forms between phosphatidylinositol 3-kinase, a protein-serine/threonine kinase, and an uncharacterized platelet membrane protein. The complex is immunoprecipitated from detergent lysates of thrombinstimulated platelets by a rabbit antiserum prepared against a peptide from the cytoplasmic domain of the mouse platelet-derived growth factor (PDGF) receptor. The antigen is not the PDGF receptor, since complex formation is not stimulated by PDGF and thrombin-induced complexes are not precipitated by another rabbit antiserum against the same peptide or by monoclonal anti-human PDGF receptor antibodies. Formation of the complex is rapid (within 30 sec) and occurs at thrombin concentrations that stimulate platelet aggregation and secretion (50% of maximal complex formation at 0.03 unit of thrombin per ml). We propose that the complex initiates formation of 3-phosphate-containing phosphatidylinositols that may function in platelet activation.
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PMID:Thrombin-stimulated immunoprecipitation of phosphatidylinositol 3-kinase from human platelets. 217 61

The KC gene, first identified in platelet-derived growth factor-stimulated BALB/c 3T3 cells, shares structural similarities with a new family of genes that code for secreted cytokines which appear to be involved in wound healing and inflammation. Thrombin is a coagulation system proteinase likely to be present in vivo at sites of tissue injury. This enzyme is known to stimulate multiple responses in cultured endothelial cells (EC), including the production of eicosanoids, the expression of growth factor genes and the adhesion of leukocytes. The present experiments were designed to examine the effect of thrombin on KC mRNA expression in EC and to explore the molecular mechanisms involved. Thrombin caused a marked concentration-dependent increase in the steady state level of KC mRNA in confluent porcine aortic EC. The level of KC mRNA reached a peak 2 h after thrombin treatment and returned to near control levels by 8 h. Thrombin that was pretreated with phenylmethylsulfonyl fluoride (PMSF) to block proteolytic activity did not stimulate KC gene expression. Trypsin (2 micrograms/ml) but not PSMF-trypsin also caused a substantial increase in the level of KC mRNA. We postulated a role for protein kinase C in thrombin-induced KC gene expression since previous work had demonstrated a similar EC response to phorbol esters. This hypothesis was further supported by the finding that thrombin-induced KC expression was suppressed by the C kinase inhibitor 1-(5-isoquinolinesulfonyl)-2-methylpiperazine, but not by its structural analogue. The results of the present study demonstrate that thrombin augments KC mRNA expression by vascular EC in a process that requires intact proteinase activity. The activation of protein kinase C may be a necessary component of the intracellular signalling pathway involved in this response.
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PMID:Thrombin-induced expression of the KC gene in cultured aortic endothelial cells. Involvement of proteolytic activity and protein kinase C. 219 75

Fibroblasts adhere to, and readily grow into, fibrin clots that form as a result of the cleavage of fibrinogen by thrombin. Subsequent fibroblast replication is believed to be stimulated by mitogens released by entrapped platelets, such as platelet-derived growth factor. We suggest that the supernatant remaining after the fibrinogen-thrombin reaction could stimulate fibroblast replication, even in the absence of other blood components. To examine this hypothesis we expressed liquid from a fibrin clot and measured its mitogenic activity on human lung fibroblasts, in serum-free conditions, using a colorimetric assay based on uptake and subsequent release of Methylene Blue. The clot supernatant caused a mitogenic response of 51 +/- 6% above control and was equivalent to about half that elicited by medium containing 10% newborn calf serum. On their own, both thrombin and fibrinopeptides A and B (small molecular weight cleavage products released from fibrinogen) showed some mitogenic activity, but there was also activity in higher molecular weight cleavage products, suggesting the presence of uncharacterized mitogens. It is proposed that these agents may play important roles in wound healing and diseases associated with vascular leakage and fibrosis, by stimulating fibroblast replication.
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PMID:Growth factors for human fibroblasts in the solute remaining after clot formation. 221 68

Recent studies have implicated the hydrolysis of phosphoinositides and phosphatidylcholine in agonist-stimulated events. The potent mitogen, alpha-thrombin, stimulates the generation of diglycerides in a biphasic and sustained manner in IIC9 fibroblasts (Wright, T. M., Rangan, L. A., Shin, H. S., and Raben, D. M. (1988) J. Biol. Chem. 263, 9374-9380). Using measurements of radiolabeled headgroup release and molecular species analysis, we previously determined that alpha-thrombin generates diglycerides through the hydrolysis of both the phosphoinositides and phosphatidylcholine at early times (15 s), and at later times (greater than or equal to 5 min) through the hydrolysis of primarily, if not exclusively, phosphatidylcholine (Pessin, M. S., and Raben, D. M. (1989) J. Biol. Chem. 264, 8729-8738). In contrast, IIC9 fibroblasts respond to the mitogenic treatments of (a) alpha-thrombin following chymotrypsin pretreatment or (b) epidermal growth factor by increasing their levels of diglycerides in a monophasic and sustained manner (Wright, T. M., Rangan, L. A., Shin, H. S., and Raben, D. M. (1988) J. Biol. Chem. 263, 9374-9380). In this report, we have analyzed the molecular species of the diglycerides generated by these two different treatments and have also examined the lipid response of IIC9 fibroblasts to platelet-derived growth factor. Based on both the molecular species analyses and the release of radiolabeled head-groups, all three of these different mitogenic treatments generate diglycerides primarily through the stimulation of phosphatidylcholine hydrolysis. However, while similar, the molecular species profiles of the diglycerides generated by these three treatments are not identical to the molecular species profile of total cellular phosphatidylcholine. In addition, the molecular species profiles of the diglycerides generated by these three mitogenic treatments greatly resemble each other, with significant differences between any two profiles occurring in at most one molecular species. This finding differs from that seen with alpha-thrombin stimulation alone, where the molecular species profile of the diglycerides generated following 5 min of alpha-thrombin stimulation is nearly identical to the molecular species profile of total cellular phosphatidylcholine. These data support the possibility of hormone-sensitive phosphatidylcholine pools or selective diglyceride metabolism.
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PMID:Molecular species analysis of mitogen-stimulated 1,2-diglycerides in fibroblasts. Comparison of alpha-thrombin, epidermal growth factor, and platelet-derived growth factor. 233 11

Mitogenic stimulation of density-arrested C3H 10T1/2 mouse fibroblasts by serum or purified platelet-derived growth factor (PDGF) was potently inhibited by retinyl acetate (RAc; IC50 = 0.1 microgram/ml, 0.3 x 10(-6) M) when administered during the first 2 hours of mitogen exposure. This inhibitory effect of RAc coincided with a period early in the cell growth-division cycle when density-arrested C3H 10T1/2 cells stimulated by PDGF were found to require physiological levels of extracellular Ca2+ for the transition from G0 to G1 of the cell cycle. To determine if the inhibitory effect of RAc was mediated through alterations in the Ca2+ signaling pathway induced by mitogens, we examined Fura-2-loaded fibroblasts for changes in the Ca2+ response elicited by PDGF. Addition of PDGF (5 ng/ml) induced a transient increase in the [Ca2+]i that was not significantly effected by the extracellular Ca2+ concentration. Treatment of cells with RAc caused a concentration- and time-dependent inhibition of this PDGF-stimulated Ca2+ flux (IC50 = 0.45 microgram/ml or 1.5 x 10(-6) M; t1/2 = 15 min), whereas release of intracellularly stored Ca2+ by thrombin was unaffected by RAc (1.2 micrograms/ml, 4 x 10(-6) M). Treatment with RAc did not significantly affect PDGF binding to cell surface receptors or the generation of inositol phosphates. These results suggest that the mechanism by which RAc inhibits PDGF- or serum-induced mitogenesis is through modulation of the Ca2+ signal stimulated by PDGF, and thereby depriving the cell of a rise in intracellular Ca2+ necessary for progression through the cell cycle.
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PMID:Retinyl acetate inhibits platelet-derived growth factor-induced Ca2+ signals in C3H 10T1/2 fibroblasts. 238 Feb 53

We have determined whether expression of the c-sis gene product, platelet-derived growth factor (PDGF), is regulated in cultured renal microvascular endothelial cells by factors to which vascular endothelial cells may be exposed at sites of perivascular cellular proliferation. Thrombin exposure increased endothelial cell levels of c-sis message by 3-5-fold over a time course that peaked at 4 h after exposure. Similarly, thrombin-exposed microvascular endothelial cells released increased amounts of PDGF activity into their media. The thrombin effect was not mediated through the proteolytic activity of thrombin, as proteolytically inactive thrombin stimulated the c-sis expression as well as native thrombin. This stimulation was mimicked by exposure of cells to biologically active phorbol esters, suggesting that thrombin action may be mediated through activation of kinase C (Ca2+/phospholipid-dependent enzyme). Thus, thrombin regulates the expression and release of PDGF activity from endothelial cells in culture and may act in vivo to stimulate mitogen release from endothelial cells, thereby inducing proliferation of perivascular cells.
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PMID:Thrombin stimulates c-sis gene expression in microvascular endothelial cells. 242 51

A nonselective cation channel that we characterized in the mouse L-cell membrane becomes quiescent with serum deprivation (arrested cell growth) and rapidly active upon readdition of serum or, specifically, platelet-derived growth factor (PDGF). Using the patch-clamp technique, we find that the predominant channel in the LMTK- cell line is a bursting nonselective cation channel (the NS channel). In cell-attached and inside-out patches, the channel has a conductance of 28 pS; equal selectivity for Na+, K+, and Cs+; and no anion or divalent cation permeability. The channel open probability is voltage insensitive and in inside-out patches does not correlate with intracellular calcium (0.5 nM to 50 microM). When cultures are rendered quiescent by incubation in serum-free medium, channel open probability is virtually 0 as compared to 0.26 (+/- 0.17) in exponentially growing cultures. If mitogenesis is initiated by readdition of serum to quiescent cells while maintaining cell-attached recording, there is a rapid (15-30 s) activation of the channel (n = 12). The open probability of the patch increases (greater than 0.75) for 2-3 min and then decreases. We have attempted applications of several growth factors (fibroblast-derived growth factor, epidermal growth factor, insulin, bombesin, alpha-thrombin, and vasopressin, individually or in combination) but find that only PDGF (5-100 ng/ml; n = 9) produces channel activation. This activation should provide a Na+ entry pathway parallel to that of the Na/H exchanger.
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PMID:Activation of single-channel currents in mouse fibroblasts by platelet-derived growth factor. 246 5

We compared the mechanisms by which thrombin and platelet-derived growth factor (PDGF) activate phospholipase C in cultured vascular smooth muscle cells. Thrombin caused a transient (less than 5 min) increase in inositol trisphosphate (IP3) while PDGF caused a sustained (greater than 10 min) increase. Both pertussis toxin and phorbol 12-myristate 13-acetate (PMA) inhibited the thrombin-induced increase in IP3 but neither agent affected the PDGF-induced increase in IP3. To examine the role of GTP binding (G) proteins in the activation of phospholipase C by these two hormones, GTP analogues were introduced into saponin-permeabilized cells. In the absence of hormones, guanosine 5'-O-(3-thiotrisphosphate) (GTP gamma S) caused a progressive increase in IP3 release which was inhibited 55% by PMA (200 ng/ml). In the presence of thrombin, GTP gamma S caused synergistic increase in IP3 release. The synergism between GTP gamma S and thrombin was virtually eliminated by 10 min prior exposure to PMA (200 ng/ml). When PDGF was the hormonal agonist, GTP gamma S also caused synergistic increase in IP3 release and guanosine 5'-O-(2-thiodiphosphate) blunted PDGF-induced IP3 release. However, in contrast to thrombin, the synergism between GTP gamma S and PDGF was unaffected by PMA. Thus, thrombin and PDGF activate phospholipase C by signal transduction systems which differ in kinetic properties and in sensitivity to PMA and pertussis toxin. Despite these differences, both systems appear to involve GTP binding proteins at some step.
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PMID:Guanosine 5'-O-(3-thiotrisphosphate) potentiates both thrombin- and platelet-derived growth factor-induced inositol phosphate release in permeabilized vascular smooth muscle cells. Signaling mechanisms distinguished by sensitivity to pertussis toxin and phorbol esters. 249 71

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