Carboxylesterase catalyzed 18O-labeling of carboxylic acid and its potential application in LC-MS/MS based quantification of drug metabolites

Carboxylesterase catalyzed 18O-labeling of carboxylic acid and its potential application in LC-MS/MS based quantification of drug metabolites

LC-MS quantification of drug metabolites is sometimes impeded by the availability of internal standards that often requires customized synthesis and/or extensive purification. Although isotopically labeled internal standards are considered ideal for LC-MS/MS based quantification, de novo synthesis u...

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Bibliographic Details
Published in:Drug metabolism and pharmacokinetics Vol. 34; no. 5; pp. 308 - 316
Main Authors: Yu, Zaikuan J., Roesner, Joseph M., Lutz, Ryan, Liang, Yuexia, Baker, James, Smith, Dustin M., Fan, Peter W.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-10-2019
Subjects:
Carboxylesterase catalyzed hydrolysis
Clopidogrel
Diclofenac
Gemfibrozil
Gemfibrozil acyl glucuronide
Indomethacin
LC-MS/MS quantification
Mycophenolic acid
Oxygen-18 labeling
Piperacillin
Carboxylesterase catalyzed hydrolysis
Mycophenolic acid
UGT
SA-IS
IS
SIL-IS
Diclofenac
CES
t1/2
Gemfibrozil
Piperacillin
UDPGA
RIL-IS
Oxygen-18 labeling
Clopidogrel
m/z
LC-MS/MS quantification
ESI
Indomethacin
Gemfibrozil acyl glucuronide
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Summary:LC-MS quantification of drug metabolites is sometimes impeded by the availability of internal standards that often requires customized synthesis and/or extensive purification. Although isotopically labeled internal standards are considered ideal for LC-MS/MS based quantification, de novo synthesis using costly isotope-enriched starting materials makes it impractical for early stage of drug discovery. Therefore, quick access to these isotope-enriched compounds without chemical derivatization and purification will greatly facilitate LC-MS/MS based quantification. Herein, we report a novel 18O-labeling technique using metabolizing enzyme carboxylesterase (CES) and its potential application in metabolites quantification study. Substrates of CES typically undergo a two-step oxygen exchange with H218O in the presence of the enzyme, generating singly- and doubly-18O-labeled carboxylic acids; however, unexpected hydrolytic behavior was observed for three of the test compounds – indomethacin, piperacillin and clopidogrel. These unusual observations led to the discovery of several novel hydrolytic mechanisms. Finally, when used as internal standard for LC-MS/MS based quantification, these in situ labeled compounds generated accurate quantitation comparable to the conventional standard curve method. The preliminary results suggest that this method has potential to eliminate laborious chemical synthesis of isotope-labeled internal standards for carboxylic acid-containing compounds, and can be developed to facilitate quantitative analysis in early-stage drug discovery. [Display omitted]
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ISSN:1347-4367
1880-0920
DOI:10.1016/j.dmpk.2019.05.004