针对因子 IXa 的强效抗凝适体可阻断高分子底物相互作用。
Potent anticoagulant aptamer directed against factor IXa blocks macromolecular substrate interaction.
机构信息
Duke Translational Research Institute, Department of Surgery, Duke University Medical Center, Durham, North Carolina 27710, USA.
出版信息
J Biol Chem. 2012 Apr 13;287(16):12779-86. doi: 10.1074/jbc.M111.300772. Epub 2012 Feb 13.
Abstract
An aptamer targeting factor IXa has been evaluated in animal models and several clinical studies as a potential antithombotic therapy. We elucidate the molecular mechanism by which this aptamer acts as an anticoagulant. The aptamer binds tightly to factor IXa and prolongs the clotting time of human plasma. The aptamer completely blocks factor IXa activation of factor X regardless of the presence of factor VIIIa. However, the aptamer does not completely block small synthetic substrate cleavage, although it does slow the rate of cleavage. These data are consistent with the aptamer binding to the catalytic domain of factor IXa in such a way as to block an extended substrate-binding site. Therefore, unlike small molecule inhibitors, aptamers appear to be able to bind surfaces surrounding an active site and thereby sterically interfere with enzyme activity. Thus, aptamers may be useful agents to probe and block substrate-binding sites outside of the active site of an enzyme.
摘要
一种针对因子 IXa 的适体已在动物模型和几项临床研究中进行了评估,作为一种潜在的抗血栓治疗方法。我们阐明了这种适体作为抗凝剂的作用机制。该适体与因子 IXa 紧密结合,并延长人血浆的凝血时间。该适体完全阻止因子 IXa 对因子 X 的激活,无论是否存在因子 VIIIa。然而,该适体并不能完全阻止小分子合成底物的切割,尽管它确实减缓了切割的速度。这些数据与适体以阻止扩展的底物结合位点的方式结合到因子 IXa 的催化结构域一致。因此,与小分子抑制剂不同,适体似乎能够结合到活性位点周围的表面,从而在空间上干扰酶的活性。因此,适体可能是有用的试剂,可用于探测和阻断酶活性位点之外的底物结合位点。
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