Molecular Basis of Blood Coagulation Regulation
University Of Illinois At Chicago, Chicago IL
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Abstract
Serpin family protein protease inhibitors function as key anticoagulant regulators of blood coagulation proteases. Two serpins, antithrombin and protein Z-dependent protease inhibitor (ZPI), are known to inhibit procoagulant proteases in a manner that is regulated by cofactors and dependent on the functional state of the proteases, but the molecular details of this complex regulatory mechanism are poorly understood. The physiologic importance of these serpins in regulating coagulation proteases is borne out by the observations that knocking out the mouse genes results in embryonic lethality due to a consumptive coagulopathy in the case of antithrombin and a prothrombotic phenotype when mice are bred on a factor V Leiden background in the case of ZPI. Our proposed studies seek to build on our prior studies to advance molecular understanding of the cofactor-dependent regulation of blood coagulation proteases by these serpins. With respect to antithrombin, our recent studies have suggested an important revision of the allosteric mechanism of activation of this serpin by heparin in showing that activation is mediated principally by the mitigation of repulsive interactions with factor Xa and factor IXa within an antithrombin exosite rather than by provision of an attractive exosite. Our proposed continuation studies seek to characterize the molecular determinants in antithrombin of protease binding exosites and of the allosteric communication network involved in transmitting activating conformational changes from the heparin binding site to the protease binding site. With respect to ZPI, our studies seek to elucidate the physiologic complexes of factor Xa that are targeted by ZPI and its cofactor, protein Z, establish the role of the unique N-terminal tail of ZPI in anticoagulant regulation of factor Xa and discover small molecules that disrupt the ZPI-protein Z complex and downregulate the ZPI anticoagulant mechanism as a potential novel therapy for restoring hemostasis in hemophilia bleeding disorders. Gain of function studies in which the serpin scaffold of ?1-protease inhibitor is used to graft the molecular determinants of the protein Z binding site and protease binding sites onto ZPI will provide a stringent test of the minimal determinants of cofactor and protease recognition by this serpin.
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