Abstract
OBJECTIVES: Retinoic acid plays diverse physiological and pathophysiological roles in reproduction, immune function, energy metabolism and carcinogenesis. Because of the potential benefits of inhibiting retinoic acid biosynthesis in certain disease states, efforts are underway to develop inhibitors of retinoic acid biosynthesis via inhibition of the aldehyde dehydrogenase-1 A (ALDH1A) family of enzymes. However, many potential ALDH1A inhibitors also inhibit the related ALDH2 enzyme that plays a role in the metabolism of ethanol. Accurate in vitro assessment of ALDH2 inhibition is problematic, and to date, there are no published in vivo assays to determine inhibition of ALDH2 by candidate ALDH1A inhibitors. STUDY DESIGN: To address this, we developed a novel gas-chromatography-mass-spectrometry ethanol clearance assay in mice using orally administered ethanol and serial measurement of ethanol over time. We then used this assay to determine pharmacological inhibition of ALDH2 by candidate ALDH1A inhibitors. RESULTS: Ethanol clearance in untreated male mice occurs within sixty minutes. Male mice treated with WIN 18,446, a known ALDH1A inhibitor that also inhibits ALDH2, demonstrated significant inhibition of ethanol clearance compared to untreated controls. Novel pyrazole and piperazine ALDH1A inhibitors were then tested with the piperazine inhibitor demonstrating ALDH2 inhibition via impaired ethanol clearance while the pyrazole inhibitor did not interfere with ethanol metabolism, suggesting a lack of ALDH2 inhibition. CONCLUSIONS: Inhibition of ethanol clearance is a useful in vivo method of inferring pharmacologic inhibition of hepatic ALDH2. This assay may be useful in the development of novel ALDH1A specific inhibitors for a variety of therapeutic indications.