Chemically induced isomerization and differential uptake modulate retinoic acid disposition in HL-60 cells.

The successful introduction of 13-cis-retinoic acid (13-cis-RA) and all-trans-retinoic acid (all-trans-RA) in the chemoprevention and treatment of cancer along with the discovery of different retinoic acid receptors transactivated by different retinoic acid isomers resulted in a number of in vitro studies of the antitumor effects of single retinoic acid isomers. Since the formation of retinoic acid isomers with different receptor affinities might modulate retinoic acid response in vitro, we determined retinoic acid disposition in HL-60 cells and cell culture medium during incubation with 13-cis-, 9-cis-, and all-trans-RA. In medium, retinoic acids underwent a thiol-radical mediated isomerization resulting in a mixture of 13-cis-, 9-cis-, 9,13-di-cis-, and all-trans-RA. Except for the 9, 13-di-cis-RA, all isomers generated in medium were also detected in HL-60 cells. Whereas 9-cis-RA and 13-cis-RA showed similar cellular pharmacokinetics, all-trans-RA reached about fourfold higher concentrations in HL-60 cells compared to 9-cis-RA and 13-cis-RA. Due to its better uptake, all-trans-RA became the main isomer within cells as it was formed in the medium when incubated with 13-cis-RA and 9-cis-RA. Thus, due to the simple chemically induced isomerization and its profound influence on cellular retinoic acid concentrations, studies of the efficacy of single retinoic acid isomers in vitro should be interpreted with caution.