Modular Design, Expression and Characterization of Novel Bifunctional Mutants of Fibrolase with Combined Platelet Aggregation-Inhibition and Fibrinolytic Activity

Abstract

Fibrolase is a non-hemorrhagic zinc metalloproteinase found in southern copperhead snake (Agkistrodon contortrix contortrix) venom that acts directly on fibrin clots and does not require plasminogen or any other blood-borne intermediate for activity. Chimeras of fibrolase with RGD peptides conferring antiplatelet activity have been synthesized covalently, but we describe a simpler, cheaper and less toxic method, using site-directed mutagensis. Fibrolase variants that constitute the arginine-glycine-aspartic acid (Arg-Gly-Asp, RGD) motif were constructed using site-directed mutagenesis. Chimeric genes of fibrolase were expressed in Escherichia coli to obtain the bifunctional chimeric molecule of fibrolase that can inhibit platelet aggregation. After refolding and purification, platelet-targeted thrombolysis and antiplatelet aggregation of the target chimeric protein were determined. The mutant RGD-F2, using the GPRGDWRMLG peptide to replace the TSVSHD sequence between sites 69 and 72, not only had almost the same catalytic ability as wild-type fibrolase but also a strong ability to inhibit platelet aggregation.