Abstract

Drug-drug interactions (DDI) have a significant impact on drug efficacy and safety. It has been reported that orlistat, an anti-obesity drug, inhibits the hydrolysis of p-nitrophenol acetate, a common substrate of the major drug-metabolizing hydrolases, carboxylesterase (CES) 1, CES2, and arylacetamide deacetylase (AADAC), in vitro The aim of this study was to examine whether orlistat affects the pharmacokinetics of drug(s) metabolized by hydrolases in vivo, after evaluating its inhibitory potencies against CES1, CES2, and AADAC in vitro Orlistat potently inhibited the hydrolysis of acebutolol, a specific substrate of CES2, in a non-competitive manner (K i = 2.95 {plus minus} 0.16 nM), whereas it slightly inhibited the hydrolysis of temocapril and eslicarbazepine acetate, specific substrates of CES1 and AADAC, respectively (IC50 > 100 nM). The in vivo DDI potential was elucidated using mice, in which orlistat showed strong inhibition against acebutolol hydrolase activities in the liver and intestinal microsomes, similar to humans. The AUC of acebutolol was increased by 43%, whereas the AUC of acetolol, a hydrolyzed metabolite of acebutolol, was decreased by 47% by co-administration of orlistat. The ratio of the K i value to the maximum unbound plasma concentration of orlistat (< 0.012) is lower than the risk criteria for DDI in the liver defined by the FDA guideline (> 0.02), whereas the ratio of the K i value to the estimated intestinal luminal concentration (3.3 × 105) is considerably higher than the risk criteria in the intestine (> 10). Therefore, this suggests that orlistat causes DDI by inhibiting hydrolases in the intestine. Significance Statement This study demonstrated that orlistat, an anti-obesity drug, causes drug-drug interactions in vivo by potently inhibiting carboxylesterase 2 in the intestine. This is the first evidence that inhibition of hydrolases causes drug-drug interactions.

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