Aptamer-Conjugated Nanoparticles Efficiently Control the Activity of Thrombin

摘要

Thrombin-binding aptamer-conjugated gold nanoparticles (TBA-Au NPs) for highly effective control of thrombin activity towards fibrinogen are demonstrated. While a 29-base long oligonucleotide (TBA_(29)) has known no enzymatic inhibitory functions for thrombin-mediated coagulation, the ultrahigh anticoagulant potency of TBA_(29)-Au NPs can be demonstrated via the steric blocking effect, at two orders of magnitude higher than that of free TBA_(29). The surface aptamer density on the Au NPs is important in determining their enzymatic inhibition of thrombin and their stability in the presence of nuclease. The practicality of 100TBA_(29)-Au NPs (100 TBA_(29) molecules per Au NP) for controlling thrombin-mediated coagulation in plasma is found, and the 100TBA_(29)-Au NPs has an ultra binding affinity towards thrombin (K_d = 2.7 × 10~(-11)M) due to their high ligand density. The anticoagulant activity of TBA_(29)-Au NPs is found to be suppressed by TBA_(29) complementary sequence (cTBA_(29)) modified Au NPs (cTBA_(29)-Au NPs), with a suppression rate 4.6-fold higher than that of cTBA_(29). The easily prepared and low-cost TBA_(29)-Au NPs and cTBA_(29)-Au NPs show their potential in biomedical applications for treating various diseases related to blood clotting disorders. In principle, this study opens the possibility of regulation of molecule binding, protein recognizing, and enzyme activity by using aptamer-functionalized nanomaterials.