Background and purpose: Despite being a first-line clinical drug, thienopyridines have many unsatisfactory aspects, including the low bioavailability of clopidogrel(CLP) and the high bleeding risk of prasugrel. We synthesized deuterium clopidogrel(D-CL, patented in China) to alleviate the deficiency of CLP in clinical, such as a slow onset, a greater influence of gene polymorphism, and a high frequency of drug-drug interaction.
Experimental approach: Molecular docking was used to analyze the affinity between D-CL and the P2Y12 receptor. The levels of active metabolites of D-CL were detected using HPLC/MS-MS and the activities of main metabolic enzymes were analyzed; Subsequently, platelet aggregation function, thrombus model were used to evaluate the pharmacodynamics of D-CL. Finally, the safety of D-CL were evaluated through examination of blood routine, PT, APTT, bleeding time, serological tests, liver pathological biopsy, liver cell apoptosis and detection of apoptosis-related proteins.
Key results: The introduction of deuterium made the binding of CLP to P2Y12 receptor more stable, improved the concentration of active metabolites, and substantially reduced the inhibition of major metabolic enzymes, including CYP2B6, CYP2C9, and CYP2C19, thereby, exerting better antiplatelet effects without increasing the risk of bleeding, along with a concomitant decrease in the apoptosis of hepatocytes.
Keywords: Active metabolite; Cytochrome P450 enzymes; Deuterium clopidogrel; Hepatocyte apoptosis; Platelet aggregation.
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