Atherothrombosis and Vascular Biology Laboratory, Baker IDI Heart and Diabetes Institute, Melbourne, Victoria, Australia.
Arterioscler Thromb Vasc Biol. 2011 Sep;31(9):2015-23. doi: 10.1161/ATVBAHA.111.226241. Epub 2011 Jun 9.
Therapeutic hypothermia is successfully used, for example, in cardiac surgery to protect organs from ischemia. Cardiosurgical procedures, especially in combination with extracorporeal circulation, and hypothermia itself are potentially prothrombotic. Despite the obvious need, the long half-life of antiplatelet drugs and thus the risk of postoperative bleedings have restricted their use in cardiac surgery. We describe here the design and testing of a unique recombinant hypothermia-controlled antiplatelet fusion protein with the aim of providing increased safety of hypothermia, as well as cardiac surgery.
An elastin-mimetic polypeptide was fused to an activation-specific glycoprotein (GP) IIb/IIIa-blocking single-chain antibody. In silico modeling illustrated the sterical hindrance of a β-spiral conformation of elastin-mimetic polypeptide preventing the single-chain antibody from inhibiting GPIIb/IIIa at 37°C. Circular dichroism spectra demonstrated reverse temperature transition, and flow cytometry showed binding to and blocking of GPIIb/IIIa at hypothermic body temperature (≤32°C) but not at normal body temperature. In vivo thrombosis in mice was selectively inhibited at hypothermia but not at 37°C.
This is the first description of a broadly applicable pharmacological strategy by which the activity of a potential drug can be controlled by temperature. In particular, this drug steerability may provide substantial benefits for antiplatelet therapy.
例如,在心脏外科手术中,治疗性低温被成功用于保护器官免受缺血损伤。心脏外科手术,尤其是与体外循环相结合的手术,以及低温本身都有潜在的促血栓形成作用。尽管有明显的需求,但抗血小板药物的半衰期长,因此术后出血风险限制了其在心脏外科手术中的应用。我们在这里描述了一种独特的重组低温控制抗血小板融合蛋白的设计和测试,旨在为低温治疗以及心脏手术提供更高的安全性。
弹性蛋白模拟多肽与激活特异性糖蛋白(GP)IIb/IIIa 阻断单链抗体融合。计算机模拟表明,弹性蛋白模拟多肽的空间位阻阻止单链抗体在 37°C 时抑制 GPIIb/IIIa。圆二色光谱显示出相反的温度转变,流式细胞术显示在低温(≤32°C)时与 GPIIb/IIIa 结合并阻断其活性,但在正常体温时不阻断。体内在体血栓形成实验表明,在低温下可选择性抑制血栓形成,而在 37°C 时则不能。
这是第一个描述广泛适用的药理学策略的例子,通过该策略可以通过温度来控制潜在药物的活性。特别是,这种药物可控性可能为抗血小板治疗提供实质性的益处。
