Translational Sciences, Inc., Phoenix, Arizona.
University of Tennessee Health Sciences Center, Memphis, Tennessee.
J Thromb Haemost. 2019 Sep;17(9):1461-1469. doi: 10.1111/jth.14522. Epub 2019 Jun 23.
Excessive, plasmin-mediated fibrinolysis augments bleeding and contributes to death in some patients. Current therapies for fibrinolytic bleeding are limited by modest efficacy, low potency, and off-target effects.
To determine whether an antibody directed against unique loop structures of the plasmin protease domain may have enhanced specificity and potency for blocking plasmin activity, fibrinolysis, and experimental hemorrhage.
The binding specificity, affinity, protease cross-reactivity and antifibrinolytic properties of a monoclonal plasmin inhibitor antibody (Pi) were examined and compared with those of epsilon aminocaproic acid (EACA), which is a clinically used fibrinolysis inhibitor.
Pi specifically recognized loop 5 of the protease domain, and did not bind to other serine proteases or nine other non-primate plasminogens. Pi was ~7 logs more potent in neutralizing plasmin cleavage of small-molecule substrates and >3 logs more potent in quenching fibrinolysis than EACA. Pi was similarly effective in blocking catalysis of a small-molecule substrate as α -antiplasmin, which is the most potent covalent inhibitor of plasmin, and was a more potent fibrinolysis inhibitor. Fab or chimerized Fab fragments of Pi were equivalently effective. In vivo, in a humanized model of fibrinolytic surgical bleeding, Pi significantly reduced bleeding to a greater extent than a clinical dose of EACA.
A mAb directed against unique loop sequences in the protease domain is a highly specific, potent, competitive plasmin inhibitor that significantly reduces experimental surgical bleeding in vivo.
过度的、纤溶酶介导的纤维蛋白溶解会增加出血,并导致一些患者死亡。目前用于纤维蛋白溶解性出血的治疗方法存在疗效有限、效力低和靶向外效应等问题。
确定一种针对纤溶酶蛋白酶结构域独特环结构的抗体是否具有增强的特异性和效力,以阻断纤溶酶活性、纤维蛋白溶解和实验性出血。
检测并比较了单克隆纤溶酶抑制剂抗体(Pi)的结合特异性、亲和力、蛋白酶交叉反应性和抗纤维蛋白溶解特性,与临床使用的纤维蛋白溶解抑制剂ε氨基己酸(EACA)进行了比较。
Pi 特异性识别蛋白酶结构域的环 5,不与其他丝氨酸蛋白酶或其他 9 种非灵长类纤溶酶原结合。Pi 在中和小分子底物的纤溶酶切割方面的效力比 EACA 高约 7 个对数级,在抑制纤维蛋白溶解方面的效力高 3 个对数级。Pi 在阻断小分子底物的催化作用方面与α-抗纤溶酶(最有效的纤溶酶共价抑制剂)同样有效,并且是一种更有效的纤维蛋白溶解抑制剂。Pi 的 Fab 或嵌合 Fab 片段同样有效。在体内,在纤维蛋白溶解性手术出血的人源化模型中,Pi 显著减少出血的效果明显优于临床剂量的 EACA。
一种针对蛋白酶结构域独特环序列的 mAb 是一种高度特异性、效力高、竞争性的纤溶酶抑制剂,可显著减少体内实验性手术出血。
