Reilly I A, Doran J B, Smith B, FitzGerald G A
Circulation. 1986 Jun;73(6):1300-9. doi: 10.1161/01.cir.73.6.1300.
Although thromboxane A2 is a potent platelet agonist and vasoconstrictor in vitro, our knowledge of its pathophysiologic importance in human disease is limited. To facilitate the elucidation of its role in vivo, we sought to define a human syndrome in which pharmacologic interventions designed to inhibit the biosynthesis or biologic actions of thromboxane A2 might be appropriately assessed. Patients with severe peripheral vascular disease were selected on the basis of elevated plasma beta-thromboglobulin and circulating platelet aggregates and compared with healthy, age-matched control subjects. In addition to the platelet indexes, their bleeding time was shorter and excretion of 2,3-dinor-thromboxane B2, a noninvasive index of thromboxane formation in vivo, and 2,3-dinor-6-keto-prostaglandin F 1 alpha, the major urinary metabolite of prostacyclin, was markedly increased. A selective inhibitor of thromboxane synthase, imidazo (1,5-2) pyridine-5-hexanoic acid, was administered to these patients under randomized, double-blind, controlled conditions. Platelet aggregation ex vivo, the circulating platelet aggregate ratio, and the bleeding time were all unaltered, despite almost maximal inhibition of platelet thromboxane formation 1 hr after dosing. By contrast, pronounced inhibition of aggregation was observed when platelet cyclooxygenase was inhibited by aspirin. During long-term dosing with the synthetic inhibitor, inhibition of thromboxane biosynthesis was incomplete, which would permit continued thromboxane-dependent platelet aggregation to occur. However, the failure of enzyme blockade to influence platelet function at the time of maximal drug action, despite efficient inhibition of serum thromboxane B2, suggests that accumulation of proaggregatory endoperoxides is also likely to have contributed to the persistence of platelet activation. We have characterized a human preparation in which platelet activation coexists with increased thromboxane biosynthesis. In this setting, platelet activation persists despite long-term administration of a thromboxane synthase inhibitor in a dosing regimen representative of that employed in clinical trials. Prolongation of drug action and combination with antagonists of the shared endoperoxide/thromboxane A2 receptor may be necessary to assess the potential of selective inhibition of thromboxane synthase as a therapeutic strategy in man.
尽管血栓素A2在体外是一种强效的血小板激动剂和血管收缩剂,但我们对其在人类疾病中的病理生理重要性的了解有限。为了便于阐明其在体内的作用,我们试图定义一种人类综合征,在这种综合征中,可以适当评估旨在抑制血栓素A2生物合成或生物学作用的药物干预措施。根据血浆β-血小板球蛋白升高和循环血小板聚集体,选择患有严重外周血管疾病的患者,并与年龄匹配的健康对照受试者进行比较。除了血小板指标外,他们的出血时间较短,体内血栓素形成的非侵入性指标2,3-二去甲血栓素B2和前列环素的主要尿代谢产物2,3-二去甲-6-酮-前列腺素F1α的排泄量明显增加。在随机、双盲、对照条件下,将血栓素合酶的选择性抑制剂咪唑并(1,5-a)吡啶-5-己酸给予这些患者。给药1小时后,尽管血小板血栓素形成几乎被最大程度抑制,但体外血小板聚集、循环血小板聚集率和出血时间均未改变。相比之下,当阿司匹林抑制血小板环氧化酶时,观察到聚集明显受到抑制。在长期服用合成抑制剂期间,血栓素生物合成的抑制并不完全,这将允许依赖血栓素的血小板聚集继续发生。然而,尽管血清血栓素B2得到有效抑制,但在最大药物作用时酶阻断未能影响血小板功能,这表明促聚集内过氧化物的积累也可能导致血小板激活的持续存在。我们已经描述了一种人类制剂,其中血小板激活与血栓素生物合成增加并存。在这种情况下,尽管按照临床试验中使用的给药方案长期给予血栓素合酶抑制剂,但血小板激活仍然持续存在。延长药物作用时间并与共同的内过氧化物/血栓素A2受体拮抗剂联合使用,可能有必要评估选择性抑制血栓素合酶作为人类治疗策略的潜力。
