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)

The cascade of transmembrane signaling events that follow the occupancy of the interleukin 1 receptor remain poorly defined. We examined potential postreceptor transduction systems involved in human recombinant interleukin 1-beta-stimulated prostacyclin synthesis in human umbilical vein endothelium. Challenge of human umbilical vein endothelium monolayers with recombinant interleukin 1-beta resulted in dose- and time-dependent tritiated arachidonate release and prostacyclin synthesis consistent with phospholipase A2 activation. Prostacyclin synthesis after interleukin 1-beta (10 ng/ml) was detected 4 hours after stimulation and peaked at 16 to 24 hours. To examine whether interleukin 1-beta produced early activation of a phosphoinositide-specific phospholipase C, human umbilical vein endothelium monolayers were labeled with tritiated-2-myoinositol and inositol polyphosphates recovered after interleukin 1-beta stimulation. In contrast to the potent agonist, alpha-thrombin, interleukin 1-beta failed to significantly increase inositol phosphate production when examined for up to 4 hours. The absence of a significant increase in the Cai++ secretagogue, IP3, was confirmed in human umbilical vein endothelium monolayers loaded with the Ca++ photoprotein probe aequorin. Basal aequorin luminescence was unaltered after interleukin 1-beta (0 to 2 hours), whereas both alpha-thrombin and Ca++ ionophore A23187 produced rapid rises in Cai++. The intracellular Ca++ antagonist BAPTA and the extracellular Ca++ chelator EGTA produced significant inhibition of interleukin 1-beta-stimulated prostacyclin generation at 4 to 8 hours, suggesting either an indirect inhibitory effect of these agents on phospholipase A2 activity or that an increase in Ca++ may be a late event in the transduction scheme after interleukin 1 stimulation. Interleukin 1-beta-stimulated protein kinase C, phospholipase D, and adenylyl cyclase activities (0 to 4 hours) were unchanged from controls. Despite the absence of increased plasma membrane protein kinase C activity up to 4 hours after interleukin 1, pretreatment of human umbilical vein endothelium monolayers with staurosporine or phorbol myristate acetate (18 hours) to reduce protein kinase C activities, significantly attenuated the interleukin 1-stimulated prostanoid responses at 16 hours but not at 4 hours. Furthermore, short (5 minute) pretreatment with phorbol myristate acetate dramatically augmented interleukin 1-mediated prostacyclin responses in synergistic fashion, suggesting that protein kinase C may modulate interleukin 1 signal transducing pathways. In summary, these studies suggest that interleukin 1-beta-mediated endothelial cell phospholipase A2 activity and prostacyclin synthesis occur via a novel transducing pathway that does not involve early activation of phospholipase C, phospholipase D, or adenylate cyclase.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Interleukin 1-stimulated prostacyclin synthesis in endothelium: lack of phospholipase C, phospholipase D, or protein kinase C involvement in early signal transduction. 133 14

Electropermeabilized human platelets containing 5-hydroxy[14C]tryptamine ([14C]5-HT) were suspended in a glutamate medium containing ATP and incubated for 10 min with (in various combinations) Ca2+ buffers, phorbol 12-myristate 13-acetate (PMA), guanine nucleotides, and thrombin. Release of [14C]5-HT and beta-thromboglobulin (beta TG) were used to measure secretion from dense and alpha-granules, respectively. Ca2+ alone induced secretion from both granule types; half-maximal effects were seen at a -log [Ca2+ free] (pCa) of 5.5 and maximal secretion at a pCa of 4.5, when approximately 80% of 5-HT and approximately 50% of beta TG were released. Addition of PMA, guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S), GTP, or thrombin shifted the Ca2+ dose-response curves for secretion of both 5-HT and beta TG to the left and caused small increases in the maximum secretion observed. These results suggested that secretion from alpha-granules, like that from dense granules, is a Ca(2+)-dependent process stimulated by the sequential activation of a G-protein, phospholipase C, and protein kinase C (PKC). However, high concentrations of PMA and GTP gamma S had distinct effects in the absence of Ca2+ (pCa greater than 9); 100 nM PMA released approximately 20% of platelet 5-HT but little beta TG, whereas 100 microM GTP gamma S stimulated secretion of approximately 25% of each. Simultaneous addition of PMA greatly enhanced these effects of GTP gamma S. Phosphorylation of pleckstrin in permeabilized platelets incubated with [gamma-32P]ATP was used as an index of the activation of PKC during secretion. In the absence of Ca2+, 100 nM PMA caused maximal phosphorylation of pleckstrin and 100 microM GTP gamma S was approximately 50% as effective as PMA; neither GTP gamma S nor Ca2+ enhanced the phosphorylation of pleckstrin caused by 100 nM PMA. These results indicate that, although activation of PKC promoted secretion, GTP gamma S exerted additional stimulatory effects on secretion from both dense and alpha-granules that were not mediated by PKC. Measurement of [3H]inositol phosphate formation in permeabilized platelets containing [3H]phosphoinositides showed that GTP gamma S did not stimulate phosphoinositide-specific phospholipase C in the absence of Ca2+. It follows that in permeabilized platelets, GTP gamma S can both stimulate PKC and enhance secretion via G-protein-linked effectors other than this phospholipase.
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PMID:Factors affecting dense and alpha-granule secretion from electropermeabilized human platelets: Ca(2+)-independent actions of phorbol ester and GTP gamma S. 196 91

Ethanol is known to inhibit the activation of platelets in response to several physiological agonists, but the mechanism of this action is unclear. The addition of physiologically relevant concentrations of ethanol (25-150 mM) to suspensions of washed human platelets resulted in the inhibition of thrombin-induced secretion of 5-hydroxy[14C]tryptamine. Indomethacin was included in the incubation buffer to prevent feedback amplification by arachidonic acid metabolites. Ethanol had no effect on the activation of phospholipase C by thrombin, as determined by the formation of inositol phosphates and the mobilization of intracellular Ca2+. Moreover, ethanol did not interfere with the thrombin-induced formation of diacylglycerol or phosphatidic acid. Stimulation of platelets with phorbol ester (5-50 nM) resulted in 5-hydroxy[14C]tryptamine release comparable with those with threshold doses of thrombin. However, ethanol did not inhibit phorbol-ester-induced secretion. Ethanol also did not interfere with thrombin- or phorbol-ester-induced phosphorylation of myosin light chain (20 kDa) or a 47 kDa protein, a known substrate for protein kinase C. By electron microscopy, ethanol had no effect on thrombin-induced shape change and pseudopod formation, but prevented granule centralization and fusion. The results indicate that ethanol does not inhibit platelet secretion by interfering with the activation of phosphoinositide-specific phospholipase C or protein kinase C by thrombin. Rather, the data demonstrate an inhibition of a Ca2(+)-mediated event such as granule centralization.
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PMID:Ethanol inhibits thrombin-induced secretion by human platelets at a site distinct from phospholipase C or protein kinase C. 211 42

Addition of guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) to intact Chinese hamster lung fibroblasts (CCL39) depolarized by high K+ concentrations results in activation of phosphoinositide-specific phospholipase C (PLC) (at GTP gamma S concentrations greater than 0.1 mM), inhibition of adenylate cyclase (between 10 microM and 0.5 mM), and activation of adenylate cyclase (above 0.5 mM). Since GTP gamma S-induced activation of PLC is dramatically enhanced upon receptor-mediated stimulation of PLC by alpha-thrombin, we conclude that in depolarized CCL39 cells GTP gamma S directly activates various guanine nucleotide-binding regulatory proteins (G proteins) coupled to PLC (Gp(s)) and to adenylate cyclase (Gi and Gs). Pretreatment of cells with pertussis toxin strongly inhibits GTP gamma S-induced activation of PLC and inhibition of adenylate cyclase. GTP gamma S cannot be replaced by other nucleotides, except by guanosine 5'-O-(2-thiodiphosphate) (GDP beta S), which mimics after a lag period of 15-20 min all the effects of GTP gamma S, with the same concentration dependence and the same sensitivity to pertussis toxin. We suggest that GDP beta S is converted in cells into GTP beta S, which acts as GTP gamma S. Since cell viability is not affected by a transient depolarization, these observations provide a simple method to examine long-term effects of G protein activation on DNA synthesis. We show that a transient exposure of G0-arrested CCL39 cells to GTP gamma S or GDP beta S under depolarizing conditions is not sufficient by itself to induce a significant mitogenic response, but markedly potentiates the mitogenic action of fibroblast growth factor, a mitogen known to activate a receptor-tyrosine kinase. The potentiating effect is maximal after 60 min of pretreatment with 2 mM GTP gamma S. GDP beta S is equally efficient but only after a lag period of 15-20 min. Mitogenic effects of both guanine nucleotide analogs are suppressed by pertussis toxin. Since the activation of G proteins by GTP gamma S under these conditions vanishes after a few hours, we conclude that a transient activation of G proteins facilitates the transition G0----G1 in CCL39 cells, whereas tyrosine kinase-induced signals are sufficient to mediate the progression into S phase.
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PMID:Guanosine 5'-O-(3-thiotriphosphate) and guanosine 5'-O-(2-thiodiphosphate) activate G proteins and potentiate fibroblast growth factor-induced DNA synthesis in hamster fibroblasts. 216 8

In order to evaluate the role of phosphoinositide turnover in growth factor action, we expressed human M1 muscarinic acetylcholine (Hm1) receptors in Chinese hamster lung fibroblasts (CCL39 cell line). In the transfected cells (39M1-81 clone), but not in wild type fibroblasts, the muscarinic agonist carbachol induced a release of inositol phosphates as strong as alpha-thrombin, a very potent growth factor and activator of phosphoinositide-specific phospholipase C (PLC) in this cell system. In contrast to thrombin, carbachol-stimulated PLC activity was not inhibited by pertussis toxin treatment of cells. At concentrations that elicited a comparable initial rate of inositol phosphate release (10 nM for thrombin and 0.1 mM for carbachol), both agents gave rise to an identical calcium signal and equally stimulated Na+/H+ exchange and the transcription of the early genes c-jun, c-fos, and c-myc. Surprisingly, however, carbachol is not a mitogen for 39M1-81 cells, and even if tested in association with insulin or fibroblast growth factor, its effects on cell proliferation remained weak when compared with thrombin. Also, the muscarinic agonist did not stimulate soft agar colony forming capacity and did not prevent growth arrest in Go upon serum deprivation of cycling 39M1-81 cells. The failure of carbachol to induce cell proliferation could not be attributed to rapid and complete desensitization of Hm1 receptors nor to the activation of inhibitory pathways like adenylyl cyclase stimulation. We conclude that strong and persistent activation of phosphoinositide turnover elicits early biochemical events generally associated with mitogenesis, but is not sufficient to stimulate or maintain continuous cell proliferation. On the basis of our results, we postulate that thrombin mitogenesis depends critically on signaling events different from phosphoinositide turnover, possibly the stimulation of a receptor tyrosine kinase or a Gi protein-activated tyrosine kinase.
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PMID:Strong and persistent activation of inositol lipid breakdown induces early mitogenic events but not Go to S phase progression in hamster fibroblasts. Comparison of thrombin and carbachol action in cells expressing M1 muscarinic acetylcholine receptors. 217 13

Treatment of 32P-labeled rabbit platelets with platelet-activating factor (PAF) caused a time- and dose-dependent phosphorylation of several proteins including five major phosphorylated proteins with apparent molecular weights of 20,000, 35,000, 40,000, 65,000, and 150,000. Both PAF and thrombin caused a rapid increase followed by a decrease in phosphorylation of proteins, indicating the occurrence of a phosphorylation-dephosphorylation process. Four separate PAF receptor antagonists, CV-3988, CV-6209, SRI-63-441, and SRI-63-675 drastically reduced the PAF-stimulated protein phosphorylation. The order of potency was SRI-63675 greater than SRI-63441 greater than or equal to CV-6209 greater than CV-3988. These antagonists had no effect on thrombin-stimulated protein phosphorylation. Pretreatment of platelets with PAF (0.1 nM) completely abolished any further protein phosphorylation by the same concentration of PAF. PAF pretreatment shifted the dose response of protein phosphorylation by about 2 log units, to the right. When platelets were treated with PAF (10 nM) for 10 min, this abolished phosphorylation of proteins by any concentration of PAF. These studies indicated a homologous desensitization of protein phosphorylation. Interestingly, PAF-pretreated platelets still exhibited phosphorylation of proteins by thrombin. On the other hand, a lack of protein phosphorylation by PAF or thrombin was observed in platelets preexposed to thrombin and this demonstrated a heterologous desensitization. It is concluded that phosphorylation of proteins by PAF is a PAF receptor-coupled event and that this process is desensitized in platelets preexposed to PAF. The fact that both the activation of phosphoinositide-specific phospholipase C and the phosphorylation of proteins are desensitized in PAF-pretreated platelets suggests that a close "regulatory" intercommunication between these processes exists.
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PMID:Desensitization of platelet-activating factor-stimulated protein phosphorylation in platelets. 253 56

Platelet-activating factor (PAF) receptor-coupled activation of phosphoinositide-specific phospholipase C (PLC) was studied in platelets that were made refractory, by short-term pretreatments, to either PAF or thrombin. Generation of [3H]inositol triphosphate ( [3H]IP3) was monitored specifically for this purpose. [3H]Inositol-labeled rabbit platelets that were incubated (10 min) with increasing concentrations of PAF and subsequently challenged by the same concentration of PAF had greatly diminished PLC activity ( [3H]IP3 production) as compared to controls. Platelets incubated (10 min) with fixed concentrations of PAF and then challenged with increasing concentrations of PAF had log-dose response curves of [3H]IP3 production progressively shifted to the right (i.e., to higher concentrations) and were depressed as the PAF pretreatment with 10 nM PAF became completely refractory to further PAF stimulation of PLC. Washing the pretreated platelets with either buffer or buffer containing 0.5% bovine serum albumin did not restore the PAF for 10 min), platelets remained fully responsive to thrombin (2 units/ml)-stimulated production of [3H]IP3. Platelets pretreated with increasing concentrations of thrombin (0.15-2 units/ml) for different times (5-40 min) became refractory to both thrombin and PAF. It is concluded that PAF receptor-coupled activation of PLC becomes refractory (desensitized) in platelets preexposed to PAF, whereas platelets pretreated with thrombin are desensitized to both thrombin and PAF. It is proposed that thrombin has two transmembrane pathways leading to the activation of PLC, one shared with PAF and another utilizing separate mechanistic inputs.
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PMID:Desensitization of receptor-coupled activation of phosphoinositide-specific phospholipase C in platelets: evidence for distinct mechanisms for platelet-activating factor and thrombin. 282

Administration of ethanol to human platelets resulted in a rapid shape change which was maximal within 30 s. Ethanol did not cause aggregation or secretion of ATP at any time and inhibited aggregation induced by collagen. In platelets that were loaded with the intracellular calcium indicator fura2, ethanol induced a rapid mobilization of calcium from internal, thrombin-sensitive pools. Cytosolic calcium increased to a maximum within 5 s and decreased slowly over the ensuing 5 min to near basal levels. The mobilization of calcium by ethanol coincided with the rapid formation of phosphatidic acid and a decrease in the level of phosphatidylinositol 4,5-bisphosphate, as measured in 32P-labeled platelets. In platelets labeled with myo-[2-3H]inositol, ethanol caused a 20-30% increase in the levels of inositol (1,4,5)-trisphosphate and inositol bisphosphate within 10 s. Ethanol also induced the transient phosphorylation of myosin light chain (20 kDa) and a 40 kDa protein, a known substrate for protein kinase C. The results indicate that ethanol activates phosphoinositide-specific phospholipase C in human platelets. The subsequent mobilization of intracellular calcium and activation of protein kinase C can account for the shape change induced by ethanol.
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PMID:Ethanol stimulates shape change in human platelets by activation of phosphoinositide-specific phospholipase C. 282 32

Previous studies in Chinese-hamster fibroblasts (CCL39 line) indicate that an important signalling pathway involved in thrombin's mitogenicity is the activation of a phosphoinositide-specific phospholipase C, mediated by a pertussis-toxin-sensitive GTP-binding protein (Gp). The present studies examine the effects of thrombin on the adenylate cyclase system and the interactions between the two signal transduction pathways. We report that thrombin exerts two opposite effects on cyclic AMP accumulation stimulated by cholera toxin, forskolin or prostaglandin E1. (1) Low thrombin concentrations (below 0.1 nM) decrease cyclic AMP formation. A similar inhibition is induced by A1F4-, and both thrombin- and A1F4- -induced inhibitions are abolished by pertussis toxin. (2) Increasing thrombin concentration from 0.1 to 10 nM results in a progressive suppression of adenylate cyclase inhibition and in a marked enhancement of cyclic AMP formation in pertussis-toxin-treated cells. A similar stimulation is induced by an active phorbol ester, and thrombin-induced potentiation of adenylate cyclase is suppressed by down-regulation of protein kinase C. Therefore, we conclude that (1) the inhibitory effect of thrombin on adenylate cyclase is the direct consequence of the activation of a pertussis-toxin-sensitive inhibitory GTP-binding protein (Gi) possibly identical with Gp, and (2) the potentiating effect of thrombin on cyclic AMP formation is due to stimulation of protein kinase C, as an indirect consequence of Gp activation. Our results suggest that the target of protein kinase C is an element of the adenylate cyclase-stimulatory GTP-binding protein (Gs) complex. At low thrombin concentrations, activation of phospholipase C is greatly attenuated by increased cyclic AMP, leading to predominance of the Gi-mediated inhibition.
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PMID:Thrombin exerts a dual effect on stimulated adenylate cyclase in hamster fibroblasts, an inhibition via a GTP-binding protein and a potentiation via activation of protein kinase C. 284 29

Growth factors can be divided into two classes which act through distinct signal transduction pathways. One class including epidermal growth factor, platelet derived growth factor and fibroblast growth factor activates receptor tyrosine kinases, and the second class, including thrombin, bombesin, bradykinin and vasopressin activates a phosphoinositide-specific phospholipase C through GTP-binding proteins which can be inactivated by pertussis toxin. In Chinese hamster lung fibroblasts, thrombin-induced mitogenicity seems to correlate well with phospholipase C activation and both events are sensitive to pertussis toxin. Thrombin, like the other mitogens in this class, simultaneously inhibits adenylate cyclase. This involves an inhibitory G protein (Gi), a well established pertussis toxin substrate. The relative contributions of the two signalling pathways to mitogenicity has not been evaluated so far. We report here that the neurotransmitter serotonin (5-hydroxytryptamine), a contracting agent and mitogen for smooth muscle cells, activates phospholipase C, inhibits adenylate cyclase and stimulates DNA synthesis in fibroblasts. These events are sensitive to pertussis toxin. We show that the mitogenicity of 5-hydroxytryptamine can be uncoupled from phospholipase C activation that is mediated by 5-HT2 receptors, but correlates perfectly with inhibition of adenylate cyclase through 5-HT1B receptor. We propose that inhibition of adenylate cyclase or activation of an undefined effector system by Gi is important in 5-hydroxytryptamine induced DNA synthesis and contributes to the strong mitogenicity of the other members of this family of growth factors.
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PMID:Serotonin stimulates DNA synthesis in fibroblasts acting through 5-HT1B receptors coupled to a Gi-protein. 304 68

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