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  • Title: Carboxylesterase-2 plays a critical role in dabigatran etexilate active metabolite formation.
    Author: Laizure SC, Chen F, Farrar JE, Ali D, Yang B, Parker RB.
    Journal: Drug Metab Pharmacokinet; 2022 Dec; 47():100479. PubMed ID: 36375226.
    Abstract:
    Dabigatran etexilate (DABE), an oral anticoagulant prodrug, is nearly completely metabolized to the dabigatran (DAB) active metabolite by carboxylesterase-1 (CES1) and carboxylesterase-2 (CES2). The high interpatient variation in DAB plasma concentrations, coupled with its low therapeutic index, emphasizes the need to understand how CES1 and CES2 impact active metabolite formation. Previous work focused on CES1 enzyme activity but the contributions of CES2 remain unclear. The purpose of this study was to determine how CES2 activity influences DAB active metabolite formation. We compared the efficiency of DAB formation from DABE when exposed sequentially to human intestinal and then human hepatic microsomes (mimicking the normal metabolic sequence) with the reverse metabolic sequence in which DABE is exposed to hepatic and then intestinal microsomes. The poor efficiency of DAB formation with reverse sequential hydrolysis indicates that CES2 activity is crucial for active metabolite formation. Thus, the decrease in DAB formation with normal sequential hydrolysis was more sensitive to CES2 inhibition by verapamil (CES2 IC50 = 3.4 μM) than CES1 inhibition by diltiazem (CES2 IC50 = 9.1 μM). These results show CES2 activity plays a crucial role in DAB formation and that variability in its activity is an important determinant of therapeutic response.
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