TITLE

Unraveling the metabolic transformation of tetrazepam to diazepam with mass spectrometric methods

AUTHOR(S)
Schubert, Birthe; Pavlic, Marion; Libiseller, Kathrin; Oberacher, Herbert
PUB. DATE
December 2008
SOURCE
Analytical & Bioanalytical Chemistry;Dec2008, Vol. 392 Issue 7/8, p1299
SOURCE TYPE
Academic Journal
DOC. TYPE
Article
ABSTRACT
The metabolic transformation pathways of the 1,4-benzodiazepine tetrazepam (C16H17ClN2O, average mass: 288.772) were studied with capillary LC-QqTOF-MS and -MS/MS by analyzing human plasma and urine samples collected from healthy volunteers. Each volunteer took 50 mg of tetrazepam, given in the form of one tablet of Myolastan (Sanofi-Synthelabo, Vienna, Austria). Accurate molecular mass measurements in full-scan mode (scan range: 50–700) were used to survey the collected samples for putative metabolic transformation products. Full-scan fragment ion mass spectra were collected in subsequent LC/MS/MS experiments. Each spectrum was matched to a spectral library containing 3759 MS/MS-spectra of 402 compounds, including eighteen different benzodiazepines, to prove the structural relatedness of a tentative metabolite to tetrazepam. This “similarity search” approach provided a rapid and powerful tool to exclude non-drug-related species, even without any knowledge of the fragmentation chemistry. Interpretation of tandem mass spectrometric data was only required in order to elucidate the site of transformation. Using this strategy, 11 major classes of tetrazepam metabolites were identified. Possible metabolic routes from tetrazepam to diazepam (C16H13ClN2O, average mass: 284.740) via repeated hydroxylation and dehydration of the cylohexenyl moiety were discovered. No evidence for extensive hydroxylation of tetrazepam at position 3 of the diazepine ring was found. In contrast to what is commonly believed, this distinct transformation reaction may be of only minor importance. Furthermore, the occurrence of demethylation, hydration, and glucuronidation reactions was proven. [Figure not available: see fulltext.]
ACCESSION #
35354217

 

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