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 effect of Mitomycin C on aggregation, adenosine 3',5'-monophosphate (cyclic AMP) metabolism and reactions induced by thrombin was studied in rabbit platelets. Mitomycin C inhibited the platelet aggregation induced by adenosine diphosphate or thrombin. The level of radioactive cyclic AMP derived from 8-14C adenine or 8-14C adenosine increased after incubating intact platelets with Mitomycin C. Formation of radioactive adenosine triphosphate also increased though mitochondrial oxidation was not stimulated. Similar effect was observed also in rabbit liver. Mitomycin C failed to stimulate platelet adenyl cyclase but inhibited cyclic AMP phosphodiesterase in the absence of theophylline. In the platelets preincubated with Mitomycin C, thrombin-induced inhibition of adenyl cyclase, stimulation of membrane-bound cyclic AMP phosphodiesterase, and release of 250,000 dalton protein from platelet membranes were prevented. These results suggest that Mitomycin C will affect cellular membrane structure and function, and this extranuclear effect of Mitomycin C will lead to inhibition of aggregation in blood platelets.
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PMID:The effect of mitomycin C on platelet aggregation and adenosine 3',5'-monophosphate metabolism. 20 72

Human platelet adenosine-3',5'-cyclic monophosphate (cAMP) levels were determined in platelet rich plasma (PRP) and in washed platelets by a modification of the protein binding assay; the validation of the method is described. Dihydroergotamine (DHE) inhibited epinephrine induced platelet aggregation (ID50 = 2.5 X 10(-7) mol/l), and increased cAMP levels in platelets by an alpha-adrenergic receptor blocking effect, since phentolamine but not propranolol, behaved similarly. The DHE induced cAMP accumulation was correlated to the inhibitory effect on aggregation and showed a characteristic alpha-adrenergic receptor pattern in the presence of alprostadil (PGE1) and epinephrine but not collagen or adenosine diphosphate (ADP). Thrombin induced aggregation was similarly affected by DHE but with 100 times higher concentration. Heparin was found to increase slightly ADP and epinephrine induced aggregation and to decrease cAMP. Also, heparin was found to inhibit thrombin induced platelet aggregation. In washed platelets, the inhibitory effect of thrombin on PGE1 induced cAMP accumulation was counteracted by heparin. This indicates that the binding site of thrombin on platelets is important in the control of adenyl cyclase. Evidence is presented that some of the beneficial synergistic effect of DHE and heparin may consist in the ability of those compounds to produce opposite effects on cAMP system in platelets.
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PMID:Effect of heparin and dihydroergotamine on platelet adenosine-3',5'-cyclic monophosphate. 282 55

Platelet-active drugs are of potential benefit in prevention of diabetic microangiopathy as well as other thromboembolic complications. The present investigation examines the effect of an angio-protective agent, calcium dobesilate (Doxium) on platelets and suggests its mechanism of action. Calcium dobesilate reduces aggregation and the release reaction induced by thrombin and collagen in rabbit platelets. Calcium dobesilate also increases platelet cAMP levels in vitro and ex-vivo. The experimental results indicate that the inhibitory effect of calcium dobesilate on platelet function is mediated through the cyclic AMP pathway, probably through activation of adenyl cyclase.
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PMID:Effect of calcium dobesilate on platelet function. 284 55

20-Isopropylidene-PGE1 (Isop-PGE1) was about 10 times more potent than PGE1 in inhibition of thrombin-induced aggregation of rabbit washed platelets. Likewise, 20-isopropylidene-17(R)-methyl-carbacyclin (CS-570), a stable PGI2 analogue, was more potent than carbacyclin in the anti-aggregatory activity. In order to define the platelet-prostaglandin interactions, a binding assay was done using platelet membranes with [3H]-PGE1 as a radioligand. Isop-PGE1 (IC50 = 0.18 microM) bound to the PG receptors more potently than PGE1 (IC50 = 2.1 microM). CS-570 (IC50 = 0.39 microM) was more potent than carbacyclin (IC50 = 1.9 microM). These indicate that introduction of an isopropylidene group to the carbon 20 of PGs increases the binding ability to the receptors. These PGE1 and PGI2 analogues activated platelet membrane adenyl cyclase and increased intracellular cAMP levels with the same potency series obtained in the binding experiments. All these results suggest that the binding to the receptors by these PGs is coupled to the activation of adenyl cyclase, followed by the increase in cAMP levels in platelets and the inhibition of platelet aggregation. Thus, the increased anti-aggregatory activity of 20-isop-PGs may be explained by their increased affinity for the PG receptors and stimulation of adenyl cyclase. 15-Epimeric-20-isopropylidene-PGE1 (15-Epi-isop-PGE1), which has an unnatural configuration of the 15-hydroxyl group, was much less potent than isop-PGE1 in the binding experiment and the other three investigations. This indicates that the configuration of the 15-hydroxyl group is important for the binding to the PG receptors and the consequent activities in platelets.
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PMID:Binding to prostaglandin (PG) receptors and activation of adenyl cyclase by 20-isopropylidene-PGS in rabbit platelet membranes. 285 19

The beta-adrenergic antagonist propranolol has been found to inhibit platelet aggregation. We investigated the possibility that propranolol exerts this action by stimulating the synthesis or enhancing the antiaggregatory activity of prostaglandin (PG) I2. The media from cultures of human endothelial cells inhibited thrombin-induced platelet aggregation, an effect attributed to PGI2 production by the cells. When endothelial cells were incubated with dl- or d-propranolol, the media had two to three times the inhibitory activity of control media. However, this increased activity was not due to increased synthesis of PGI2 because control and propranolol-treated cultures synthesized similar amounts of the PGI2 metabolite, 6-keto-PGF1 alpha. Instead, propranolol enhanced the antiaggregatory activity of PGI2. Propranolol (1 microM) and PGI2 (0.05 nM), when tested separately, inhibited aggregation by 19% and 13%, respectively, whereas the combination inhibited aggregation by 51%. PGI2 inhibited platelet aggregation and thromboxane (Tx) B2 production but stimulated cyclic AMP formation. The adenyl cyclase inhibitor 2',5'-dideoxyadenosine (DDA) had no effect of its own on these parameters, but blocked the actions of PGI2. Propranolol inhibited aggregation and TxB2 synthesis without changing cyclic AMP levels. Unlike PGI2, propranolol's effects were not altered by DDA. While the combination of propranolol and PGI2 inhibited aggregation to a greater extent than either agent alone, this enhanced effect with the combination did not extend to TxB2 or cyclic AMP production. Propranolol, PGI2, and the combination inhibited TxB2 synthesis to a similar extent, and PGI2 produced a similar increase in cyclic AMP in the presence and absence of propranolol. These findings indicate that propranolol and PGI2 inhibit platelet aggregation through cyclic AMP-independent and dependent mechanisms, respectively. While propranolol does not alter the synthesis of PGI2, it enhances the inhibition of aggregation by PGI2, and this may contribute to its antiplatelet effect.
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PMID:Enhancement of the antiaggregatory activity of prostacyclin by propranolol in human platelets. 298 77

The inhibition of human platelet aggregation produced by PGF2 alpha is not specific for thromboxane A2 mimetics. Aggregation waves induced by PAF and thrombin are also inhibited by PGF2 alpha (8 microM); ADP is unaffected. These effects are still seen in platelets from aspirin-treated donors and platelets desensitized to thromboxane-like agonists (e.g. 11,9-epoxymethano PGH2). In contrast the thromboxane receptor antagonist EP 045 (up to 20 microM) had no effect on primary aggregation induced by PAF, thrombin and ADP. We have previously shown that EP 045 (IC50 = 0.5 microM), but not PGF2 alpha (28 microM), displaces the specific binding of [3H] 9,11-epoxymethano PGH2 to washed human platelets. PGF2 alpha produces small increases in cAMP levels, and both this effect and the anti-aggregation are diminished by the adenyl cyclase inhibitor SQ 22536. The rise in cAMP induced by PGF2 alpha is inhibited to a greater extent by the presence of ADP than by thrombin, PAF or a thromboxane mimetic. The ability of aggregating agents to inhibit this increase correlates inversely with their sensitivity to inhibition by PGF2 alpha. We suggest that the very weak effect of PGF2 alpha on cyclic AMP production is sufficient to account for its inhibitory activity, and it is unlikely to be a competitive antagonist at the platelet thromboxane receptor as suggested by others.
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PMID:Mechanism of the inhibition of platelet aggregation produced by prostaglandin F2 alpha. 298 22

A new antiaggregating chemical, alpha-(p-(fluoren-9-ylidenemethyl)phenyl)-2-piperidineethanol (RMI 10,393), designated FYPE, was found to be an effective inhibitor of platelet aggregation induced by adenosine diphosphate (ADP), thrombin, collagen, or epinephrine. Effects of the antiaggregant on platelets were concentration dependent. Aggregation was prevented by low concentrations of FYPE that produced in the platelet only minor ultrastructural changes consisting of loss of microtubules and of discoid shape. Low levels of FYPE that prevented platelet aggregation had no effect on platelet ATPase activities but did alter clot retraction, the thrombin-induced shift in electrophoretic mobility and platelet cholinesterase activity. Market decrease in ADP release and increase in adenyl cyclase activity were produced by low levels of FYPE. This study provides a model for evaluation of platelet antiaggregating compounds in vitro.
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PMID:Effect of a new antiaggregating chemical on the structure and function of the human platelet. 425 15

A clinical study was conducted whereby the activity of adenyl cyclase in the human platelet was demonstrated. The study showed that this activity can be stimulated and inhibited in vitro. Platelets were isolated from normal donors. The laboratory procedures involved in the study are described in detail. It seems that many of the biologic processes which occur in the human platelet are dependent on the breakdown of ATP (adenosine-tri-phosphate) to, among other substances, AMP (adenosine-3',5' monophosphate). Activity of the adenyl cyclase was stimulated by fluoride, prostaglandin E1, and glucagon; it was inhibited by thrombin, epinephrine, norepinephrine, and serotonin. PG (prostaglandin) E1 at concentrations of 20 ng/ml and above increased adenyl cyclase in 7 experiments by 3-5 times. Even at concentrations as low as 2 ng/ml., PGE2 caused perceptable stimulation. The PGE, while stimulating adenyl cyclase activity, also inhibited aggregation of platelets by a variety of substances. Results of the study suggest that adenosine-3',5' monophosphate may be important in the regulation of platelet adhesiveness.
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PMID:Adenyl cyclase in human platelets: activity and responsiveness. 430 55

The relation of cyclic 3',5'-adenosine monophosphate to platelet function has been studied by investigating the influence of this compound and of its N(6)-2'-0-dibutyryl derivative on platelet aggregation and other aspects of platelet behavior after demonstration of adenyl cyclase activity in disrupted platelets. Dibutyryl cyclic AMP inhibited platelet aggregation induced by ADP, epinephrine, collagen, and thrombin. Cyclic AMP was also inhibitory but was less effective. The platelet "release reaction" was also inhibited; specifically, there was inhibition of the induction of platelet factor 3 activity and of the release of labeled 5-hydroxytryptamine. Platelet swelling produced by ADP was not inhibited. The action of dibutyryl cyclic AMP did not result from contamination with 5'-AMP, nor was it attributable to production of 5'-AMP by plasma enzymes. Dibutyryl cyclic AMP was degraded to 2'-O-monobutyryl cyclic AMP and to cyclic AMP in plasma, but plasma exhibited no cyclic nucleotide phosphodiesterase activity, and the production of 5'-AMP did not occur. The in vitro effects of dibutyryl cyclic AMP were associated with uptake of the compound by platelets. Adenyl cyclase activity of platelet homogenates was demonstrated with production of 9.27 x 10(-11) (+/-2.62 x 10(-11)) mole cyclic AMP per min per 10(10) platelets. The activity was increased by NaF and by prostaglandin PGE(1) and was decreased by epinephrine. The effect of epinephrine was blocked by phentolamine but not by propanolol. Adenyl cyclase activity was also inhibited by collagen, 5-hydroxytryptamine, and thrombin. ADP, dibutyryl cyclic AMP, and cyclic AMP did not alter adenyl cyclase activity. These observations are consistent with the hypothesis that platelet aggregation is favored by a decrease in platelet cyclic AMP and inhibited by an increase in cyclic AMP.
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PMID:Cyclic 3',5'-adenosine monophosphate in human blood platelets. II. Effect of N6-2'-o-dibutyryl cyclic 3',5'-adenosine monophosphate on platelet function. 432 65

Washed human platelets were incubated with 0.1-1.0 U/ml human thrombin and the effects on adenyl cyclase activity and on a platelet membrane protein (designated thrombin-sensitive protein) were studied. Adenyl cyclase activity was decreased 70-90% when intact platelets were incubated with thrombin. The T(1/2) for loss of adenyl cyclase activity was less than 15 sec at 1 U/ml thrombin. There was no decrease of adenyl cyclase activity when sonicated platelets or isolated membranes were incubated with these concentrations of thrombin. Loss of adenyl cyclase activity was relatively specific since the activities of other platelet membrane enzymes were unaffected by thrombin. Prior incubation of platelets with dibutyryl cyclic adenosine monophosphate (AMP), prostaglandin E(1), or theophylline protected adenyl cyclase from inhibition by thrombin. Incubation of intact but not disrupted platelets with thrombin resulted in the release of thrombin-sensitive protein from the platelet membrane. The rapid release of this protein (T(1/2) < 15 sec) at low concentrations of thrombin suggested that removal of thrombin-sensitive protein from the platelet membrane is an integral part of the platelet release reaction. This hypothesis is supported by the parallel effects of thrombin on adenyl cyclase activity and thrombin-sensitive protein release in the presence of dibutyryl cyclic AMP, prostaglandin E(1), and theophylline at varying concentrations of thrombin.
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PMID:The effects of thrombin on adenyl cyclase activity and a membrane protein from human platelets. 433 2

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