PAR-4 Agonist AYPGKF Stimulates Thromboxane Production by Human Platelets

R. Henriksen, V. Hanks
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引用次数: 32

Abstract

Previous reports have indicated that thrombin-induced thromboxane production by human platelets occurs through two types of interaction between thrombin and the platelet surface. One of these interactions is with protease activated receptor(PAR)-1, the first identified thrombin receptor. These studies were undertaken to determine whether stimulation of PAR-4 also results in thromboxane production. The results show that treatment of washed human platelets with the PAR-4 agonist AYPGKF stimulates a maximum of 40% to 60% of the thromboxane produced by 100 nmol/L thrombin. Maximal thromboxane production requires approximately 1.0 mmol/L AYPGKF, despite the observation that maximal aggregation is produced by 45 &mgr;mol/L AYPGKF. Thromboxane produced by the combined stimulation of PAR-1 and PAR-4 is additive. Pretreatment of platelets with 45 &mgr;mol/L AYPGKF partially desensitizes thromboxane production in response to higher concentrations of AYPGKF and thrombin but not to stimulation by SFLLRN. PAR-4–induced stimulation is also significantly inhibited by 60 &mgr;mol/L genistein. It is concluded that activation through either PAR-1 or PAR-4 results in thromboxane production, but that stimulation of neither receptor alone produces thromboxane equivalent to that produced by 100 nmol/L thrombin. Thus, these findings demonstrate the presence of two pathways for thrombin-induced thromboxane production by platelets as proposed previously.
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PAR-4激动剂AYPGKF刺激人血小板产生血栓素
先前的报道表明,凝血酶诱导的人血小板产生血栓素是通过凝血酶与血小板表面之间的两种相互作用发生的。其中一个相互作用是与蛋白酶激活受体(PAR)-1,第一个确定的凝血酶受体。这些研究是为了确定PAR-4的刺激是否也会导致血栓素的产生。结果表明,用PAR-4激动剂AYPGKF处理洗涤后的人血小板,最多可刺激100 nmol/L凝血酶产生40%至60%的血栓素。最大的血栓素产生需要大约1.0 mmol/L的AYPGKF,尽管观察到最大的聚集是由45 mmol/L的AYPGKF产生的。由PAR-1和PAR-4联合刺激产生的血栓烷是加性的。用45 mol/L的AYPGKF预处理血小板,在较高浓度的AYPGKF和凝血酶的作用下,部分地使血栓素的产生脱敏,但对SFLLRN的刺激不起作用。60 mol/L染料木黄酮也能显著抑制par -4诱导的刺激。由此得出结论,通过PAR-1或PAR-4激活可产生血栓素,但单独刺激这两种受体所产生的血栓素相当于100 nmol/L凝血酶所产生的血栓素。因此,这些发现证实了先前提出的两种凝血素诱导血小板产生血栓素的途径。
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