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 influence of freshly purified ATP on the effects of aggregating agents on human platelets was studied. ATP inhibited aggregation induced by ADP competitively (Ki = 20 muM) and immediately without need for prior incubation. ATP had no effect on primary aggregation induced by adrenaline, thrombin, vasopressin, or 5-hydroxytryptamine (5HT). ATP inhibited the shape change and the consumption of metabolic ATP induced by ADP but did not inhibit these effects when induced by thrombin, vasopressin, or 5HT. ATP counteracted the inhibition by ADP of PGE1-stimulated cyclic AMP production in platelets but did not reduce inhibition by adrenaline. It is concluded that adrenaline, thrombin, 5HT, and vasopressin each can induce primary aggregation of human platelets by a mechanism independent of extracellular ADP.
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PMID:The effects of ATP on platelets: evidence against the central role of released ADP in primary aggregation. 16 88

A sensitive fluorimetric enzyme assay was developed for study of activation of glycogen phosphorylase (EC 2.4.1.1) in intact platelets and in platelet extracts. Activity was calculated as AMP independent (activity in the absence of AMP), total (activity in the presence of 1 mM AMP), and AMP dependent (difference between AMP independent and total). The following observations were made with intact rat platelets. (1) Stimulation of platelets with thrombin caused a 7-fold increase in total activity, with increases in both AMP-dependent and AMP-independent activities. Maximum activation was obtained within 10 s after addition of thrombin. (2) The divalent cation ionophore A23187 caused a similar, though less pronounced, activation of phosphorylase. (3) Acceleration of glycogenolysis by inhibition of respiration with cyanide caused similar changes in phosphorylase activity but with the maximum effect observed only after 45 s. (4) Dibutyryl cyclic AMP had two effects; it partially activated phosphorylase and blocked further activation by thrombin, but not A23187. Similar effects were observed with human platelets, but low resting levels of phosphorylase activity could not be maintained so that changes were not as large as with rat platelets. Experiments with extracts of rat platelets gave the following results. (1) Phosphorylase activity in many extracts of non-stimulated platelets could be increased by incubation with Mg2+-ATP and Ca2+; ethyleneglycol-bis-(beta-aminoethylether)-N,N'-tetraacetic acid (EGTA) partially inhibited. (2) In some extracts there was essentially no activation by incubation with Mg2+-ATP and Ca2+, but addition of cyclic AMP GAVE PARTIAL ACTIVATIon while addition of rabbit muscle phosphorylase kinase gave full activation. (3) Incubation of extracts of thrombin-stimulated platelets caused conversion of AMP-dependent to AMP-indeptndent activity. It is concluded that platelet phosphorylase exists in an inactive and two active forms. Conversion of the inactive to the active forms and of the AMP-dependent to the AMP-independent form is catalyzed by a kinase(s) that requires Ca2+ for full activity and is activated through a cyclic AMP-mediated process. The major change following physiological stimulation is an increase in both active forms, with little change in their ratio.
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PMID:Regulation of platelet phosphorylase. 17 Sep 68

Ca2+, Mg2+-ionophores X537A and A23,187 (10(-7)-10(-6) M) induced the release of adenine nucleotides adenosine diphosphate (ADP, adenosine triphosphate (ATP), serotonin, beta-glucuronidase, Ca2+, and Mg2+ from washed human platelets. Enzymes present in the cytoplasm or mitochondria, and Zn2+ were not released. The rate of ATP and Ca2+ release measured by firefly lantern extract and murexide dye, respectively, was equivalent to that produced by the physiological stimulant thrombin. Ionophore-induced release of ADP, and serotonin was substantially (approximately 60%) but not completely inhibited by EGTA, EDTA, and high extracellular Mg2+, without significant reduction of Ca2+ release. The ionophore-induced release reaction is therefore partly dependent upon uptake of extracellular Ca2+ (demonstrated using 45Ca), but also occurs to a significant extent due to release into the cytoplasm of intracellular Ca2+. The ionophore-induced release reaction and aggregation of platelets could be blocked by prostaglandin E1 (PGE1) or dibutyryl cyclic AMP. The effects of PGE1, and N6, O2-dibutyryl adenosine 3':5'-cyclic monophosphoric acid (dibutyryl cAMP) were synergistically potentiated by the phosphodiesterase inhibitor theophylline. It is proposed that Ca2+ is the physiological trigger for platelet secretion and aggregation and that its intracellular effects are strongly modulated by adenosine 3':5'-cyclic monophosphoric acid (cyclic AMP).
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PMID:Human platelet secretion and aggregation induced by calcium ionophores. Inhibition by PGE1 and dibutyryl cyclic AMP. 17 96

A single cyclic AMP-dependent protein kinase (EC 2.7.1.37) has been isolated from human platelets by using DEAE-cellulose ion-exchange chromatography and Sephadex G-150 gel filtration. The molecular weight of the protein kinase was estimated to be 86 490. In the presence of cyclic AMP, the protein kinase could be dissociated into a catalytic subunit of molecular weight 50 000, and either one regulatory subunit of molecular weight 110 000 or two regulatory subunits of molecular weights 110 000 and 38 100, depending on the pH used. Recombination of either of the regulatory subunits with the catalytic subunit restored cyclic AMP-dependency in the catalytic subunit. The apparent Km for ATP in the presence of 10 muM Mg2+ was 4 muM (plus cyclic AMP) and 4.3 muM (minus cyclic AMP). The concentration of cyclic AMP needed for half-maximal stimulation of the protein kinase was 0.172 muM and apparent dissociation constants of 3.7 nM (absence of MgATP) and 0.18 muM (presence of MgATP) were exhibited by the "protein kinase-cyclic AMP complex". The enzyme required Mg2+ for maximum activity and showed a pH optimum of 6.2 with histone as substrate. In addition to four major endogenous platelet protein acceptors of apparent molecular weights 45 000, 28000, 18 500, and 11 100, the platelet protein kinase also phosphorylated the exogenous acceptor proteins thrombin, collagen and histone, all capable of inducing platelet aggregation. Prothrombin, a nonaggregating agent, was not phosphorylated.
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PMID:Adenosine cyclic 3',5'-monophosphate-dependent protein kinase from human platelets. 17 39

Removal of N-acetylneuraminic acid from the platelet surface causes rapid removal of platelets from the circulation but causes little change in other platelet functions. We have now investigated the effects of sodium periodate which is thought to oxidize the sialic acid of glycoproteins on cell surfaces and has been shown to affect the functions of other cells. NaIO4 (1 to 10 mm) caused aggregation of stirred suspensions of washed platelets from rabbits. Calcium was required in the suspending medium for NaIO4-induced aggregation. Aggregation was not accompanied by the release of amine storage granule contents nor by cell lysis. Aggregation induced by NaIO4 was not inhibited by creatine phosphate-creatine phosphokinase, by platelet inhibitors that raise platelet cyclic AMP levels such as prostaglandin E1 or methylxanthines, by agents that modify platelet surface--SH groups (N-ethylmaleimide, p-chloromercuribenzene sulfonate), nor by cytochalasin B and/or colchicine which interfere with platelet contractile processes. Drugs such as acetylsalicyclic acid, penicillin G, or cephalothin had no effect on NaIO4-induced aggregation. NaIO4-induced aggregation was practically independent of platelet metabolism since it was not affected by low temperatures and was only slightly inhibited by a combination of antimycin and iodoacetate. Periodate treatment enhanced CO2 production by platelets. When rabbit platelets were pretreated, without stirring, with NaIO4 (0.01 to 1 mm), they did not aggregate. They retained their disc shape and granule contents. However, this pretreatment with NaIO4 inhibited aggregation induced by ADP and inhibited both aggregation and release induced by collagen, thrombin, arachidonic acid, and the ionophore A23,187. The extent of inhibition corresponded to the concentration of NaIO4 used to pretreat the platelets. In contrast, concanavalin A-induced aggregation was unchanged by NaIO4 pretreatment. When NaIO4 oxidation was followed by sodium borohydride (NaBH4) reduction, the effects caused by NaIO4 pretreatment on ADP-induced aggregation and collagen- or thrombin-induced aggregation and release were partially reversed. Pretreatment with NaIO4 also diminished the rate of serotonin uptake and decreased the ability of platelets to adhere to collagen-coated surfaces or to the subendothelial structures of the rabbit aorta. Platelets which had been treated with NaIO4 and then reinfused into rabbits did not survive, and in this way were similar to platelets from which surface sialic acid had been removed by neuraminidase treatment. Since NaIO4 has been shown to oxidize sialic acid on red cell membranes, it seems probably that alteration of surface sialic acid resulted in recognition of the periodate-treated platelets as "foreign" by the reticuloendothelial system. When NaIO4 oxidation was followed by NaBH4 reduction, platelet survival returned toward normal values.
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PMID:Effects of sodium periodate on platelet functions. 17 61

In previous studies, we observed an increase in intracellular cyclic AMP in platelets during thrombin-induced nucleotide and calcium release. Our present work suggests that platelet prostaglandins are directly involved in this phenomenon. Washed human platelets were incubated at 37 degrees C with human thrombin for times ranging between 5 s and 5 min. The release of nucleotides and calcium in response to thrombin, determined spectrophotometrically, reached 40-60% of maximal plateau levels by 5 s, 70-80% by 10 s, and 90-100% by 15 s. The production and secretion of prostaglandin E (PGE), measured by radioimmunoassay, parelleled this rapid time course. After 10 s, however, the amount of extracellular PGE began to decrease, continuing to do so through 5 min of incubation. Intracellular cyclic AMP accumulation, determined by radioimmunoassay, lagged behind the time course of nucleotide and calcium release, and that of PGE secretion, by several seconds. This lag in cyclic AMP accumulation appeared to correlate closely with the disappearance of PGE from the supernate in the same platelet samples. In view of the inhibitory effects of cyclic AMP and PGE on platelet release and aggregation, these interrelated time course curves suggest the existence within platelets of a mechanism for the modulation of platelet activity.
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PMID:Thrombin-induced platelet prostaglandin and cyclic AMP production and a possible intrinsic modulation of platelet function. 18 21

Contact of rat platelets with thrombin or the divalent cation ionophore A-23187, in the presence of extracellular calcium, resulted in the secretion of adenosine 3':5'-monophosphate (cyclic AMP) and guanosine 3':5'-monophosphate (cyclic GMP) phosphodiesterases. Significant association of calcium with platelets occurred during platelet surface contact with thrombin. Thrombin concentration to induce association of calcium virtually agreed with that to release the enzyme. The finding that A-23187 (5 to 20 muM) also provoked a rapid and marked association of extracellular calcium with platelets suggests that calcium mobilization into the intracellular environment may account, at least in part, for this association between platelet and calcium. Two different phosphodiesterases, a relatively specific cyclic AMP and a relatively specific cyclic GMP phosphodiesterase were secreted from platelets into the plasma in soluble form. The amounts of the phosphodiesterases secreted were dose- or time-dependent on thrombin (0.1 to 2 units) or A-23187 (5 to 20 muM) within 30 min. The enzyme release by thrombin was completely inhibited by heparin but the release by A-23187 was not. The two phosphodiesterases secreted seemed to correspond to the two enzymes isolated from platelet homogenates in many respects. Rat platelets contained, at least, three cyclic 3':5'-nucleotide phosphodiesterases, namely, two relatively specific cyclic AMP phoshodiesterases and a relatively specific cyclic GMP phosphodiesterase which were clearly separated from each other by Sepharose 6B or DEAE-cellulose column chromatography or sucrose gradient centrifugation. The two platelet cyclic AMP phosphodiesterase (Mr = 180,000 and 280,000) had similar apparent Km values of 0.69 and 0.75 muM with different sedimentation coefficient values of 4.9 S and 7.1 S, respectively. They did not hydrolyze cyclic GMP significantly. A cyclic GMP phosphodiesterase (Mr - 260,000) exhibited abnormal kinetics for cyclic GMP with an apparent Km value of 1.5 muM and normal kinetics for cyclic AMP with a Km of 300 muM. The properties of a platelet cyclic AMP phosphodiesterase (Mr = 180,000) and a platelet cyclic GMP phosphodiesterase were found to agree with those of the two phosphodiesterases released from platelets by thrombin or A-23187. Depletion of extracellular calcium by an addition of citrate, EDTA, or ethylene glycol bis(beta-aminoethyl ether)-N,N'-tetraacetic acid (EGTA) to the blood or platelet suspension resulted in a loss of the activity of the smaller form of platelet cyclic AMP phosphodiesterase (Mr = 180,000) and addition of calcium restored the activity of this cyclic AMP phosphodiesterase. Thus, calcium seemed to be involved in the mechanism of an occurrence of this smaller form of cyclic AMP phosphodiesterase as well as the secretion of this enzyme. Contact of human platelets with thrombin also resulted in the secretion of cyclic nucleotide phosphodiesterase which was dependent on the concentration of calcium. No species difference was observed in this respect.
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PMID:Platelet cyclic 3':5'-nucleotide phosphodiesterase released by thrombin and calcium ionophore. 18 90

The relationship of cyclic AMP to platelet function has been examined directly by assay of the platelet content of the nucleotide and platelet aggregation. Platelet aggregation is favored by an decrease in platelet cyclic AMP and inhibited by an increase in cyclic AMP. The platelet aggregation is accompanied by reduction in cyclic AMP. beta adrenergic substances increase platelet cyclic AMP in vivo and simultaneously block platelet aggregation. Thrombin selectively causes human platelets to form and release PGE. The amount formed was proportional to the amount of thrombin added and high enough to influence platelet aggregation in vitro. Platelet prostaglandin formation by washed platelets and platelet-rich plasma was not proportional to the degree of platelet aggregation induced by stirring. We were unable to detect PGE-formation in response to ADP. Thrombin-induced synthesis of PGE is inhibited by ADP. Aspirin selectively inhibits PGE-production in human platelets. This reaction does not depend on the extend of platelet aggregation. These studies suggest that cyclic AMP is the key to regulation of platelet aggregation and that PGE, formed by platelets, through its effects on cyclic AMP may play a role in regulating platelet aggregation.
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PMID:[Cyclic adenosine monophosphate, prostaglandin E and aggregation of blood platelets in man]. 19 Jan

During the aerobic conversion of xanthine to uric acid by xanthine oxidase, superoxide anion and hydrogen peroxide are produced along with the hydroxyl radical. Our studies demonstrate that washed human platelets incubated with xanthine and xanthine oxidase aggregated and released [14C]serotonin. Aggregation and release were dependent on the duration of exposure to xanthine oxidase as well as the concentration of enzyme. Both reactions were inhibited by the superoxide scavenger enzyme superoxide dismutase but not by catalase, or the free radical scavenger mannitol, suggesting that they were induced by superoxide anion. Superoxide-dependent release was inhibited by prior incubation of platelets with 1 mM EDTA, 1 micronM prostaglandin E1, or 1 mM dibutyryl cyclic AMP, but was unaffected by 1 mM acetylsalicylic acid or 1 micronM indomethacin. After prolonged incubation with xanthine and xanthine oxidase there was also efflux of up to 15% of intraplatelet 51Cr, a cytosol marker. This leakage was prevented by the addition of catalase to the media but not by superoxide dismutase. Incubation with xanthine and xanthine oxidase did not produce malonyldialdehyde, the three-carbon fatty acid fragment produced during prostaglandin endoperoxide synthesis and lipid peroxidation. Prior exposure of platelets to low fluxes of superoxide anion lowered the threshold for release by subsequent addition of thrombin, suggesting a synergistic effect. We conclude that superoxide-dependent aggregation and release may be a physiologically important method to modulate hemostatic reactions particularly in areas of inflammation or vessel injury which could have high local concentrations of superoxide anion.
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PMID:Enhancement of platelet function by superoxide anion. 19 66

Human platelet suspensions release a rabbit-aorta-contracting substance (previously identified as thromboxane A2) during aggregation produced by arachidonic acid, prostaglandin endoperoxide, thrombin, and collagen. Incubation of platelets with imidazole did not interfere with the aggregation produced by these agonists but markedly reduced the generation of the rabbit-aorta-contracting substance. We find that imidazole inhibited the conversion of exogenous or endogenous prostaglandin endoperoxide into thromboxane A2-Imidazole selectively inhibits thromboxane synthetase in intact human platelets, because this agent blocks the conversion of [14C]arachidonate into [14C]thromboxane B2 but does not inhibit the conversion of [14C]arachidonate into [14C]prostaglandin E2. The inhibition of thromboxane synthetase by imidazole is not the result of an alteration in platelet 3':5'-cyclic AMP levels. These results illustrate the utility of imidazole as a pharmacological tool and demonstrate the two unique and dissociable properties of the endoperoxides themselves--their ability to aggregate platelets and their enzymatic conversion to the potent vasoconstrictor thromboxane.
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PMID:Application of imidazole as a selective inhibitor thromboxane synthetase in human platelets. 19 13


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