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  • Stability and comparative metabolism of selected felbamate metabolites and postulated fluorofelbamate metabolites by postmitochondrial suspensions.

Stability and comparative metabolism of selected felbamate metabolites and postulated fluorofelbamate metabolites by postmitochondrial suspensions.

Chemical research in toxicology (2005-12-20)
Robert J Parker, Neil R Hartman, Bryan A Roecklein, Henry Mortko, Harvey J Kupferberg, James Stables, John M Strong
RÉSUMÉ

Evidence has been presented suggesting that a reactive metabolite, 2-phenylpropenal (ATPAL), may be responsible for the toxicities observed during therapy with the antiepileptic drug felbamate (FBM). Formation of ATPAL from its unstable immediate precursor, 3-carbamoyl-2-phenylpropionaldedhyde (CBMA) requires the loss of the hydrogen atom at position 2 in the propane chain, and it has been postulated that substitution of this atom with fluorine would prevent the formation of ATPAL. On the basis of this hypothesis, 2-fluoro-2-phenyl-1,3-propanediol dicarbamate (F-FBM) was synthesized and is presently undergoing drug development. To test this hypothesis, we compared the metabolism by human liver postmitochondrial suspensions (S9) in vitro of selected FBM and postulated F-FBM metabolites leading to formation of CBMA or 3-carbamoyl-2-fluoro-2-phenyl-propionaldehyde (F-CBMA). All S9 incubations included GSH as a trapping agent for any reactive metabolites formed. Our results indicated that, in phosphate buffer, pH 7.4, at 37 degrees C, the half-life for 4-hydroxy-5-phenyltetrahydro-1,3-oxazin-2-one (CCMF) was 2.8 and 3.6 h in the presence or absence of GSH, respectively; compared to 4-hydroxy-5-fluoro-5-phenyl-tetrahydro-1,3-oxazin-2-one (F-CCMF) which lost only 2.5% or 4.9% over 24 h under the same conditions. When incubated with S9 in the presence of the cofactor, NAD+, 2-phenyl-1,3-propanediol monocarbamate (MCF) was oxidized to CCMF which was further oxidized to 3-carbamoyl-2-phenylpropionic acid (CPPA). 2-Fluoro-2-phenyl-1,3-propanediol monocarbamate (F-MCF) under similar conditions was stable, and no metabolites were observed. When CCMF was incubated with S9 in the presence of NAD+ cofactor, oxidation to CPPA and reduction to MCF were observed. In addition, a new atropic acid GSH adduct (ATPA-GSH) was identified by mass spectrometry. When F-CCMF was incubated under the same conditions as CCMF, both reduced and oxidized metabolites, F-MCF and 3-carbamoyl-2-fluoro-2-phenylpropionic acid (F-CPPA), respectively, were formed but at significantly lower rates, and no GSH conjugates were identified. Our results support the hypothesis that F-FBM and F-CCMF are not metabolized by S9 in vitro to the known reactive FBM metabolite, ATPAL.

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Sigma-Aldrich
2-Phenylpropionaldehyde, 98%
Sigma-Aldrich
2-Phenylpropionaldehyde, ≥95%, FCC, FG