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 possible participation of proteases in human platelet aggregation was explored using various protease inhibitors and substrates. Protease inhibitors used included naturally occurring inhibitors of serine proteases and synthetic inhibitors that modify the active site of protease. Substrates used were synthetic substrates for the trypsin type as well as for the chymotrypsin type of protease. All these inhibitors and substrates inhibited platelet aggregation and serotonin release induced by ADP, collagen, epinephrine, or thrombin. In ADP- and epinephrine-induced platelet aggregation the second phase of aggregation was most efficiently inhibited. The inhibitors suppressed the formation of malondialdehyde during platelet aggregation. Release by aggregating agents of arachidonate and its metabolites from indomethacin-treated platelets as well as nontreated platelets was also inhibited. The inhibitors apperar to interact with stimulated platelets but not with unstimulated platelets. These observations suggest that the interaction of an aggregating agent with its platelet receptor activates a unique precursor serine protease that in turn activates platelet phospholipase to liberate arachidonic acid (the precursor of the potent platelet aggregating agent thromboxane A2) from platelet phospholipids.
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PMID:Inhibition of platelet aggregation by protease inhibitors. Possible involvement of proteases in platelet aggregation. 65 19

An abnormality of platelet aggregation has been detected in six family members with mild bleeding tendencies. In citrated platelet-rich plasma, primary aggregation induced by ADP or epinephrine and agglutination in response to ristocetin were present but second wave aggregation and aggregation in response to collagen suspension were absent or greatly reduced. Sodium arachidonate-induced aggregation was normal although aggregation in response to prostaglandin G2 was reduced and depended entirely on the presence of plasma or ADP. Further tests indicated that the platelets produced prostaglandins but did not release ATP in response to thrombin or sodium arachidonate. Platelets from the patients were found to contain reduced amounts of ADP and 5-hydroxytryptamine and to be unable to retain radioactivity during prolonged incubation at 37 degree C with radiolabeled 5-hydroxytryptamine. Although electron microscopy revealed an absence of very dense bodies, the platelets appeared otherwise normal. The findings are discussed in relation to previous studies of nucleotide storage pool deficiency and the light they shed on platelet physiology in general.
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PMID:Hereditary abnormality of platelet aggregation attributable to nucleotide storage pool deficiency. 66 60

The in vitro function of platelets collected by two different methods during centrifugal plateletpheresis was compared. The RBC method involves collecting platelets with red cells followed by a supplementary spin to remove them, whereas the no-RBC method requires collecting platelets only from the buffy coat without red cells. Platelet response to adenosine diphosphate (ADP), epinephrine and collagen was slightly reduced in platelet-rich plasma (PRP) prepared by no-RBC technique and was markedly decreased in samples obtained by the RBC technique when compared to prepheresis controls. The decrease in platelet response to ADP, epinephrine and collagen was apparent in three testing systems: aggregation, release of serotonin and reptilase clot retraction. Both plasma and platelets appeared to be affected by the pheresis procedure. Platelet preparations obtained by both RBC and no-RBC techniques showed an increase of platelet factor 3 activity and an enhancement of aggregation, release of serotonin and clot retraction induced by thrombin as compared to prepheresis controls. Postpheresis platelet-poor plasma contains platelet membrane fragments which exhibit a high platelet factor 3 activity. The results showed that the RBC method, although providing a higher platelet yield, caused more qualitative alterations in platelets than in those obtained by no-RBC method, and that both methods of collecting platelets activated the procoagulant activity of platelets.
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PMID:Plateletpheresis by discontinuous centrifugation: effect of collecting methods on the in vitro function of platelets. 67 71

Platelets lose their ability to aggregate when deprived of divalent cations. This usually was studied by incubating human citrated platelet-rich plasma with EDTA or EGTA and then adding enough CaCl2 to combine with the chelating agent. Incubation for 5-7 min at 37 degrees C caused irreversible loss of the platelets' ability to adhere to glass and to aggregate with ADP, epinephrine, A23187, vasopressin, or serotonin or upon rewarming after chilling and markedly reduced aggregation with collagen or thrombin. Control samples incubated with saline, CaEDTA, or CaEGTA were not inhibited. Untreated platelets washed and incubated in solutions treated with resins that remove divalent cations lost their ability to aggregate in 30 min. More than about 0.26 mM Mg2+ partially protected the platelets. Unlike aggregation, ADP-induced shape change, clot retraction caused by thrombin or ADP plus reptilase, and thrombin-induced 14C-serotonin release were not inhibited after incubation. Aggregability was not restored by prolonged incubation with CaCl2, adding normal plasma, or washing the platelets. Its loss was temperature and pH dependent, occurring in 2 min at 43 degrees C but not in 7 min at 30 degrees C, and at pH 7.8 but much less at pH 7.2. The defect was not associated with an increase in platelet cyclic AMP, a decrease in metabolic ATP, or the presence of free ADP.
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PMID:Nonreversible loss of platelet aggregability induced by calcium deprivation. 67 68

1. The 2',3'-dialdehyde derivative of ADP (oADP) at concentrations approaching the millimolar range induces human blood platelets to undergo the transition from discoid to globular morphology (the 'shape change') but is incapable of inducing aggregation. 2. When incubated with platelets for 1 min before addition of the agonist, oADP acts as a competitive inhibitor of shape change and aggregation induced by ADP. Under these conditions secretion and hence aggregation induced by low concentrations of collagen; and secretion and hence secondary aggregation induced by adrenaline, thrombin and vasopressin are also inhibited by this analogue. In addition, oADP stimulates the rate of primary aggregation induced by adrenaline and causes partial inhibition of primary aggregation induced by thrombin or vasopressin. When longer preincubation times are employed the extent of inhibition with respect to all agonists, except for high concentrations of collagen, is increased and the competitive character of the inhibition with respect to ADP is no longer apparent. 3. Incubation of human platelets with the 2',3'-dialdehyde derivative of ATP (oATP) causes effects similar to those described for oADP except that the analogue neither induces platelet shape change, nor stimulates the rate of primary aggregation induced by adrenaline. In addition oATP fails to cause significant inhibition of platelet shape change induced by serotonin. The extent and character of inhibition caused by addition of oATP is not a function of the time of incubation. 4. The 2',3'-dialcohol derivatives of ADP and ATP and orATP) effect the aggregation properties of human blood platelets in a manner generally resembling those observed for the 2',3'-dialdehyde analogues. However, orADP is only weakly effective in causing platelet shape change and stimulating the rate of primary aggregation induced by adrenaline and does not inhibit secretion induced by adrenaline, collagen, thrombin and vasopressin. The extent of inhibition by orADP increases only slightly with increased time of incubation. 5. The data suggest that oADP acts as a partial agonist, and oATP as an antagonist, at the platelet ADP receptor, but that platelet membrane stabilisation also results from interaction with these dialdehyde analogues. Such membrane stabilisation does not complicate the interaction of platelets with orADP, which appears to act as a classical antagonist for the ADP receptor.
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PMID:Interaction of human blood platelets with the 2',3'-dialdehyde and 2',3'-dialcohol derivatives of adenosine 5'-diphosphate and adenosine 5'-triphosphate. 68 37

Diminished platelet aggregation responses to one or more aggregating agents were found in 25 of 32 patients with nasal allergy studied at the peak of the allergy season. Abnormal in-season platelet aggregation induced by epinephrine and collagen was significantly improved when repeated out-of-season, while incomplete platelet aggregation induced by adenosine diphosphate (ADP) and thrombin was unchanged. Recombination of an in-season serum factor with autologous, out-of-season normally aggregating platelets caused market inhibition of platelet aggregation. Mean bleeding times of 20 symptomatic patients were also prolonged during the height of the pollination season. These data suggest that the allergic diathesis is a model for the study of cyclic, nondrug induction of platelet dysfunction.
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PMID:Cyclic platelet dysfunction in IgE-mediated allergy. 70 57

The initial shape change and subsequent aggregation of platelets in citrated rabbit platelet-rich plasma caused by ADP in vitro was inhibited by 15-hydroxyprostaglandin dehydrogenase. This inhibition was NAD-dependent and was also seen when shape change and aggregation were initiated by sodium arachidonate or by collagen. The aggregation of gel-filtered rabbit platelets by thrombin was not, however, affected by removal of 15-hydroxyprostaglandins. Indomethacin was found to inhibit ADP-induced aggregation but at a concentration (250 micron) much higher than that required to inhibit collagen-induced aggregation. Moreover the platelet release reaction had not taken place 3 min after ADP stimulation. The direct role 15-hydroxyprostaglandin production in ADP-induced aggregation of rabbit platelets is proposed. The involvement of 15-hydroxyprostaglandins in platelet aggregation caused by other inducers is also discussed.
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PMID:The role of prostaglandins in the ADP-induced aggregation of rabbit platelets shown by the use of 15-hydroxyprostaglandin dehydrogenase. 70 1

A 15-year-old girl with severe factor VII deficiency and chronic arthropathy showed an excessively prolonged bleeding time. Further studies demonstrated low platelet adhesiveness and abnormal platelet aggregation with ADP, collagen and epinephrine. Release of 14C-serotonin was deficient after aggregation with ADP and epinephrine, but was normal with thrombin. Transfusion of plasma or prothrombin complex concentrate resulted in a partial or complete correction of the bleeding time, respectively, but had no effect on in vitro platelet function tests. Both parents and the only sister had factor VII activities of 42%-72% and factor VII antigen levels of 45%-66% of normal and may thus be heterozygotes with respect to factor VII deficiency. All three had normal bleeding times in spite of abnormal in vitro platelet functions. The observations are interpreted to mean that in this family with factor VII deficiency and abnormal platelet release reaction the platelet abnormality as such was not sufficiently severe to prolong the bleeding time unless the factor VII activity was also very low.
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PMID:A syndrome of factor VII deficiency and abnormal platelet release reaction. 71 73

Imidazole and compound L8027 (selective inhibitors of thromboxane synthase) produced parallel inhibition of malonaldehyde and thromboxane B2 secretion induced by collagen or thrombin in gel-filtered suspensions of human platelets. Comparing the effects of these inhibitors and aspirin on secretion of granule constituents indicated that platelet degranulation depends mainly on thromboxane production; prostaglandin endoperoxides contributed little.
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PMID:Malonaldehyde formation in intact platelets is catalysed by thromboxane synthase. 74 61

The studies reported suggest that the principal mitogen(s) present in sera responsible for the proliferation of diploid cells in culture is derived from the physiologic response of platelet adherence, aggregation, and release upon their exposure to factors present in serum, such as thrombin, or in tissue, such as collagen. Since it is impossible to make whole blood serum without platelet release, all sera contain platelet mitogenic factor(s). In contrast, serum made from platelet-free plasma lacks mitogenic activity and permits maintenance of cells in culture in a quiescent state for long periods if the cells are routinely fed. The platelet factor(s) appears to be a heat-stable, basic polypeptide or protein, that upon exposure to the cells recruits them into the cell cycle, DNA synthesis, and mitosis. The factor(s) has been shown to act not only in cell culture but in vivo as well. Maintaining cells in a culture medium containing platelet-free, plasma-derived serum may be more analogous to the quiescence of adult cells in vivo, since quiescent cells in adult tissues are normally exposed to interstitial fluid that is probably more like a filtrate of plasma or lymph rather than to whole blood serum. In contrast, growth of cells in a culture medium containing whole blood serum would be more analogous to the pathologic situation that occurs during tissue injury accompanied by hemorrhage.
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PMID:Role of platelet factors in the growth of cells in culture. 74 46

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