Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: HUMANGGP:001400 (PRP)
1,320 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Molsidomine and its active metabolite SIN-1 were examined in humans and animals for platelet suppressant and fibrinolytic activities. Following oral administration of molsidomine at doses of 6 or 15 mg/kg to rabbits, their blood platelets in PRP ex vivo required higher threshold concentrations of ADP, AA and thrombin to be aggregated. Unlike molsidomine, SIN-1 when infused (10 and 20 micrograms/kg i.v.) into anaesthetized cats caused a release of a substance disaggregating platelet clumps which had adhered to blood superfused collagen strip. The appearance of this unstable disaggregating substance was prevented by the pretreatment of cats with aspirin (50 mg/kg i.v.). It is suggested that SIN-1 may promote formation of a PGI2-like substance. In humans shortening of euglobulin clot lysis time was observed 60 min after a single ingestion of 2 mg of molsidomine. This fibrinolytic effect of molsidomine was not abolished by the pretreatment of patients with aspirin. Neither molsidomine nor SIN-1 activated fibrinolysis in preformed euglobulin clots in vitro.
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PMID:The influence of molsidomine and its active metabolite SIN-1 on fibrinolysis and platelet aggregation. 391 80

The aim of this study was to evaluate the in vitro effects of verapamil on platelet aggregation and serum thromboxane formation. We also studied the in vivo effects of verapamil retard on platelet aggregation and serum thromboxane formation. The incubation of verapamil with PRP produced a dose-dependent decrease of in vitro platelet aggregation for all the agents used. Potentiation by verapamil of antiaggregating activity of prostacyclin was also demonstrated; in fact when verapamil and prostacyclin were added simultaneously a synergistic inhibition of platelet aggregation by ADP was observed. In whole blood verapamil partially inhibited thromboxane production only at a higher concentration. In vivo verapamil significantly decreased platelet aggregation induced by ADP and epinephrine while no changes were observed after arachidonic acid. No significant changes occurred in serum TXB2 levels. The observations suggest a potential role for verapamil in antithrombotic therapy as an antiplatelet agent.
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PMID:Effects of verapamil on platelet aggregation and serum thromboxane synthesis in vitro and in vivo. 391 16

Human placental cytosol inhibits platelet aggregation induced by high doses of collagen. The aim of this study was to investigate whether this anti-aggregating activity was caused only by the presence of various activities already described in the placenta (an ADP-consuming enzyme, a fatty acid cyclooxygenase inhibitor, and a thromboxane synthetase inhibitor) or whether another factor was present. Heating the cytosol at 50 degrees C for 6 min destroyed the inhibitor of collagen-induced aggregation. ADPase and the AA pathway inhibitors were not modified by this treatment. We therefore show the presence of an additional anti-aggregating factor: it is destroyed by heating at 50 degrees C. We also tested for the presence of an inhibitor of AA release in the placental cytosol using three different methods (rabbit platelets in PRP, washed rabbit platelets, and NRK fibroblasts) but no inhibition could be evidenced. We conclude that this new anti-aggregating factor, which is probably a protein, acts neither through AA release inhibition nor AA cascade inhibition.
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PMID:Inhibition of platelet aggregation by human placenta. 393 15

Abnormal platelet aggregation seen in experimentally induced diabetic, hypercholesterolemic and spontaneously hypertensive rats (SHR) has been linked with increased prostaglandin synthesis. The present study was conducted to examine the role of prostaglandins in rat platelet activation using normal Wistar Kyoto (WKY) and SHR rats. Up to 30 microM ADP did not induce secondary phase of platelet aggregation in rat PRP and up to 30 microM epinephrine did not produce any response in rat PRP. In other experiments ADP (1.0 microM) and epinephrine (2.0 microM) induced typical biphasic aggregation responses in human PRP. Up to 20 microM U46619, a stable analog of prostaglandin H2, did not induce platelet aggregation in rat PRP or washed rat platelets. In contrast 2.0 microM U46619 caused maximal aggregation in human PRP and washed human platelets. Arachidonic acid (1.5-2.0 mM) induced aggregation in washed rat platelets. However, this was associated with excessive (67% and 94%) loss of cytoplasmic LDH. The low concentrations of thrombin (0.04 and 0.05 U/ml), induced two to three-fold increase in aggregation response in SHR platelets as compared to WKY platelets. Higher concentrations of thrombin (0.1 and 0.3 U/ml) induced similar aggregation responses in SHR and WKY platelets. Thrombin (0.04-0.3 U/ml) induced serotonin secretion in a concentration dependent manner. The extent of secretion was the same in SHR and WKY platelets at all concentrations. Thrombin-induced synthesis of thromboxane A2 (TXA2) in WKY and SHR platelets was quantified using a radioimmunoassay for TXB2. Thrombin (0.04-0.3 U/ml) produced TXB2 in WKY and SHR platelets in a concentration dependent manner. The SHR platelets produced significantly larger amounts of TXB2 as compared to WKY platelets. In other experiments aspirin (500 microM) inhibited thrombin (0.05 U/ml) induced TXB2 synthesis by 75% in both WKY and SHR platelets but failed to inhibit aggregation or secretion in either WKY or SHR platelets. Based on these data it is suggested that: (a) rat platelets inspite of their ability to synthesize TXA2 do not require TXA2 for aggregation; and (b) the rat may not be an appropriate model to study the role of prostaglandins in normal or abnormal platelet aggregation.
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PMID:Evidence that the rat is not an appropriate model to study the role of prostaglandins in normal or abnormal platelet aggregation. 396 34

Ferriprotoporphyrin IX (FP) dissolved in 0.025N NaoH in concentrations of 0.01 - 0.04 microM/ul platelet suspension competitively inhibited platelet aggregation induced by a low concentration of collagen. 14C-serotonin release was also inhibited. Higher concentrations of collagen overcame the aggregation inhibition. A similar pattern of results was obtained with thrombin-, and arachidonic acid-induced aggregation and release. With ristocetin, there was little inhibition of aggregation although serotonin release was inhibited. ADP-induced aggregation was partially inhibited except at FP concentrations of 0.91 microM/mul. FP caused only platelet shape change and serotonin release of up to 8.1%. These changes were not associated with significant platelet lysis and could also not be attributed to pH or temperature changes. There was no inhibition of collagen-induced aggregation in PRP, but FP precipitates aggregated washed platelets and caused serotonin release. These results show that FP in solution inhibited platelet aggregation induced by the different agents studied. It did not interfere with platelet agglutination induced by ristocetin. The mechanism(s) of aggregation inhibition remains to be clarified.
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PMID:The inhibitory effects of ferriprotoporphyrin IX on platelet aggregation and release of serotonin. 408 31

The effects of (PGE) prostaglandins E1 and E2 on the aggregation and release reaction induced in human platelets by ADP have been investigated. Measurements of cyclic-AMP content in (PRP) platelet-rich plasma were made concurrently. Although both PGE1 and PGE2 independently increased platelet cyclic-AMP and inhibited 1st phase ADP-induced aggregation (order of potency, PGE1 PGE2), the effect of a fixed concentration of PGE2 in the presence of PGE1 varied. At low PGE1 concentrations, the effects were additive, but at higher PGE1 concentrations PGE2 lowered the efficacy of PGE1. These results suggest that PGE2 may be a "partial agonist" of PGE1. PGE2 enhanced and PGE1 inhibited the 2nd phase of ADP-induced aggregation and the release of serotonin by a mechanism which appeared to be independent of cyclic-AMP content. A mixture of the 2 PGs produced responses intermediate between those observed with each PG independently. Binding of PGE1-3H to platelets was demonstrated in PRP and in concentrated platelet suspensions. PGE1 and PGE2 inhibited binding in a simular manner. It is proposed that PGE1 and PGE2 compete for a common receptor on the platelet membrane.
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PMID:Interaction of prostaglandins E1 and E2 in regulation of cyclic-AMP and aggregation in human platelets: evidence for a common prostaglandin receptor. 436 32

BM 13.177 (0.1-100 microM) produced a concentration-dependent reduction of the platelet shape change, aggregation and (3H)serotonin release induced by the stable PGH2 analogues U 46619 and U 44069 or exogenous and endogenous arachidonic acid, the latter mobilized by hydrogen peroxide or collagen. BM 13.177 (100 microM) did not inhibit the primary platelet activation by ADP, serotonin, thrombin or collagen in washed platelets or citrated PRP that had been pre-treated with ASA (acetylsalicylic acid). The formation of TXB2 triggered by 100 microM hydrogen peroxide or 10 microM arachidonic acid was not influenced by BM 13.177 (10 microM). In spiral strips of rat and rabbit aorta, BM 13.117 markedly reduced the vasoconstriction triggered by U 46619 and PGF2 alpha. BM 13.177 did not inhibit the K+-or noradrenaline-induced constriction. The concentration/response curves of the U 46619-stimulated platelet shape change and of the vasoconstriction induced by U 46619 and PGF2 alpha were shifted in parallel to the right by BM 13.177, implicating a competitive antagonism. The pAx values were about the same in these models which indicates that BM 13.177 does not differentiate between the thromboxane receptors in human platelets and rabbit aorta. In mice, BM 13.177 prevented in a dose-dependent fashion the sudden death and the symptoms of respiratory depression and shock induced by i.v. injections of U 46619 or arachidonic acid. BM 13.177 did not exert partial agonist activity in the in vitro and in the animal models.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibitory effects of the selective thromboxane receptor antagonist BM 13.177 on platelet aggregation, vasoconstriction and sudden death. 609 35

In their experimental researches the Authors showed that the well-known antihypertensive alpha-adrenergic stimulant drugs (clonidine, flutonidine and guanabenz) were able to antagonize at very high concentrations the platelet aggregation induced by ADP and by thrombin on rabbit PRP.
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PMID:[Platelet aggregation and antihypertensive alpha-adrenergic agonists]. 611 90

ZK 36 374, a new, chemically stable prostacyclin derivative, was compared with PGE1 and PGI2 with respect to its action on platelet aggregation in vitro, on bleeding time and on arterial blood pressure in conscious rats. The time of occlusion of a hole in a polyethylene (PE) tube of an AV-shunt between the left carotid artery and the right jugular vein by a microthrombus was considered as an index of bleeding time. All three substances inhibited the ADP-induced aggregation of human and rat platelets. In human PRP, ZK 36 374 was 17 times more active than PGE1 and 2 - 5 times as potent as PGI2. In contrast, in rat PRP, PGI2 was 9.2 and 3.4 times as potent as PGE1 and ZK 36 374, respectively. Similar differences in potency were found in the in vivo experiments where these substances given by an intravenous infusion to conscious rats prolonged bleeding time and depressed mean arterial pressure in a dose-dependent manner. ZK 36 374 was also orally active. At oral doses of 1, 2 and 3 mg/kg this new compound caused a dose-dependent prolongation of bleeding time and a fall in arterial blood pressure. In conclusion, the results show that ZK 36 374 is an intravenously and orally active prostacyclin derivative which may be of therapeutic value for occlusive peripheral vascular diseases.
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PMID:Comparison of the vasodepressor action of ZK 36 374, a stable prostacyclin derivative, PGI2 and PGE1 with their effect on platelet aggregation and bleeding time in rats. 618 33

Prostacyclin (PGI2) therapy has been evaluated in many vascular diseases. However, it is unstable and a potent vasodilator, able to lower blood pressure. Although such effects may be desirable in some situations, they are unwanted in others. ZK36-374 (Schering AG) is a carbacyclin derivative with a similar action to PGI2; however, it is chemically stable and has less of a hypotensive action. We evaluated the effects of a 4-hour I.V. infusion of ZK36-374 at a maximum dose of 2ng/Kg/min. in ten normal volunteers. Prior to the infusion and at 2 and 4 hours, blood was sampled for estimation of platelet aggregation in both platelet rich plasma and whole blood. Beta-thromboglobulin, 6-keto-PGF1 alpha and TXB2 were measured by radioimmunoassay, as were other coagulation and rheological tests. The infusion was well tolerated with facial flushing, jaw trismus and some nausea at max dose. Blood pressure and pulse rate were not significantly altered. During infusion of ZK36-374, the rates of platelet aggregation to 2 microns ADP and 2 micrograms collagen in PRP were significantly decreased when compared to baseline, as was whole blood aggregation to 2 microns ADP and 0.5 microgram collagen. Beta TG also fell significantly, as did the levels of 6-keto-PGF1 alpha and TXB2. Fibrinolysis, blood viscosity, and red cell deformability were unchanged. ZK36-374 is an effective anti-platelet agent without major toxic or hypotensive effects.
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PMID:The effects of intravenous ZK36-374, a stable prostacyclin analogue, on normal volunteers. 620 61


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