Gustafsson D, Antonsson T, Bylund R, Eriksson U, Gyzander E, Nilsson I, Elg M, Mattsson C, Deinum J, Pehrsson S, Karlsson O, Nilsson A, Sörensen H
Department of Pharmacology, Astra Hässle AB, Mölndal, Sweden.
Thromb Haemost. 1998 Jan;79(1):110-8.
Melagatran, a new, competitive and rapid inhibitor of thrombin with a molecular mass of 429 Da is described. Melagatran is well tolerated when administered in very high doses, and the oral bioavailability in the dog is relatively high. The aim of the study was to determine, in the preclinical setting, the degree of selectivity against the fibrinolytic system required for entering the clinical development phase. Melagatran was compared with two structurally similar thrombin inhibitors, inogatran and H 317/86. The potent inhibition of thrombin by melagatran was demonstrated by a low inhibition constant (Ki) for thrombin (0.002 micromol/l) and prolongation of clotting time to twice the control value in coagulation assays at low concentrations (0.010, 0.59 and 2.2 micromol/l for thrombin time, activated partial thromboplastin time and prothrombin time, respectively). Furthermore, thrombin-induced platelet aggregation was inhibited at the same concentration (IC50-value 0.002 micromol/l) as the Ki-value for thrombin. In two assays of global fibrinolysis, inhibition was observed at a concentration of 1.1 micromol/l in a euglobulin plasma fraction model, while no inhibition was observed at a concentration of < or = 10 micromol/l in a plasma model. In an in vivo model of endogenous fibrinolysis in the rat, inhibition of fibrinolysis was observed at > or = 1.0 micromol/l. In all assays, except the Ki-ratio determinations, the compounds could be graded with regard to selectivity against the fibrinolytic system: inogatran > melagatran > H 317/86. For melagatran, inhibition of fibrinolysis was not observed at concentrations below the upper limit of the proposed therapeutic plasma concentration interval (< 0.5 micromol/l). Thus, melagatran seems to have a sufficient selectivity against the fibrinolytic system, while H 317/86 was considered to be insufficient for clinical development.
介绍了一种新型、具有竞争性且作用迅速的凝血酶抑制剂美拉加群,其分子量为429道尔顿。美拉加群以非常高的剂量给药时耐受性良好,在犬体内口服生物利用度相对较高。该研究的目的是在临床前环境中确定进入临床开发阶段所需的对纤溶系统的选择性程度。将美拉加群与两种结构相似的凝血酶抑制剂伊诺加群和H 317/86进行比较。美拉加群对凝血酶的强效抑制作用通过其对凝血酶的低抑制常数(Ki)(0.002微摩尔/升)以及在低浓度(凝血酶时间为0.010微摩尔/升、活化部分凝血活酶时间为0.59微摩尔/升、凝血酶原时间为2.2微摩尔/升)的凝血试验中凝血时间延长至对照值的两倍得以证明。此外,凝血酶诱导的血小板聚集在与凝血酶Ki值相同的浓度(IC50值为0.002微摩尔/升)下受到抑制。在两项总体纤溶试验中,在优球蛋白血浆部分模型中,1.1微摩尔/升的浓度下观察到抑制作用,而在血浆模型中,浓度≤10微摩尔/升时未观察到抑制作用。在大鼠内源性纤溶的体内模型中,≥1.0微摩尔/升时观察到纤溶抑制作用。在所有试验中,除了Ki比值测定外,这些化合物可根据对纤溶系统的选择性进行分级:伊诺加群>美拉加群>H 317/86。对于美拉加群,在低于建议治疗血浆浓度区间上限(<0.5微摩尔/升)的浓度下未观察到纤溶抑制作用。因此,美拉加群似乎对纤溶系统具有足够的选择性,而H 317/86被认为不足以用于临床开发。
