Abstract
Human liver carboxylesterases catalyze the hydrolysis of apolar drug or xenobiotic esters into more soluble acid and alcohol products for elimination. Two carboxylesterases, hCE-1 and hCE-2, have been purified and characterized with respect to their role in cocaine and heroin hydrolysis. The binding of meperidine (Demerol) and propoxyphene (Darvon) was examined in a competitive binding, spectrophotometric assay. The hCE-1 and hCE-2 bound both drugs, withKi values in the 0.4- to 1.3-mM range. Meperidine was hydrolyzed to meperidinic acid and ethanol by hCE-1 but not hCE-2. The Km of hCE-1 for meperidine was 1.9 mM and the kcat(catalytic rate constant) was 0.67 min−1. Hydrolysis of meperidine by hCE-1 was consistent with its specificity for hydrolysis of esters containing simple aliphatic alcohol substituents. Hence, hCE-1 in human liver microsomes may play an important role in meperidine elimination. Propoxyphene was not hydrolyzed by hCE-1 or hCE-2. This observation is consistent with the absence of a major hydrolytic pathway for propoxyphene metabolism in humans.
Footnotes
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Send reprint requests to: William F. Bosron, Ph.D., 405 Medical Sciences, Indiana University School of Medicine, Indianapolis, IN 46202-5122. E-mail:wbosron{at}iupui.edu
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↵1 The study was supported by Grant R01-DA-06836 from the National Institute on Drug Abuse.
- Abbreviations:
- hCE-1 and hCE-2
- human liver carboxylesterases 1 and 2
- GC-MS
- gas chromatography mass spectroscopy
- Ki
- inhibition constant
- Km
- Michaelis constant
- kcat
- catalytic rate constant
- Received September 1, 1998.
- Accepted February 18, 1999.
- The American Society for Pharmacology and Experimental Therapeutics
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