Hofstra Northwell School of Medicine, Hempstead, NY.
Landsdowne Laboratories Inc, Fairfield, CT.
Blood. 2021 Jan 7;137(1):115-125. doi: 10.1182/blood.2020007116.
Ciraparantag, an anticoagulant reversal agent, is a small molecule specifically designed to bind noncovalently by charge-charge interaction to unfractionated heparin and low-molecular-weight heparin. It shows binding characteristics that are similar to those of direct oral anticoagulants (DOACs). A dynamic light-scattering methodology was used to demonstrate ciraparantag's binding to the heparins and DOACs and its lack of binding to a variety of proteins including coagulation factors and commonly used drugs. Ciraparantag reaches maximum concentration within minutes after IV administration with a half-life of 12 to 19 minutes. It is primarily hydrolyzed by serum peptidases into 2 metabolites, neither of which has substantial activity. Ciraparantag and its metabolites are recovered almost entirely in the urine. In animal models of bleeding (rat tail transection and liver laceration), a single IV dose of ciraparantag given at peak concentrations of the anticoagulant, but before the bleeding injury, significantly reduced the blood loss. Ciraparantag, given after the bleeding injury, also significantly reduced blood loss. It appears to have substantial ability to reduce blood loss in animal models in which a variety of anticoagulants are used and has potential as a useful DOAC reversal agent.
西拉帕坦,一种抗凝剂逆转剂,是一种小分子,专门通过电荷-电荷相互作用非共价结合到未分级肝素和低分子量肝素。它显示出与直接口服抗凝剂(DOACs)相似的结合特征。动态光散射方法学用于证明西拉帕坦与肝素和 DOAC 的结合及其与包括凝血因子和常用药物在内的多种蛋白质的结合缺失。西拉帕坦在静脉给药后几分钟内达到最大浓度,半衰期为 12 至 19 分钟。它主要被血清肽酶水解成 2 种代谢物,两者均没有实质性活性。西拉帕坦及其代谢物几乎全部在尿液中回收。在出血的动物模型(大鼠尾切断和肝脏撕裂)中,在抗凝剂达到峰值浓度但在出血损伤之前,单次静脉给予西拉帕坦可显著减少出血量。在出血损伤后给予西拉帕坦也显著减少了出血量。它似乎有很大的能力在使用各种抗凝剂的动物模型中减少出血,并有可能成为一种有用的 DOAC 逆转剂。
