We characterized the interaction of sulfasalazine, a substrate of the mouse ATP binding cassette drug transporter (ABCG2), with human ABCG2, via photoaffinity labeling with [125I]-iodoarylazidoprazosin. In addition, the inhibitory effect of curcumin on ABCG2 was evaluated in brain capillaries from rats. Furthermore, the effect of curcumin on absorption of orally administered sulfasalazine in wild-type and abcg2-/- mice was also determined. Sulfasalazine interacted at the drug-substrate site(s) of human ABCG2. Curcumin inhibited ABCG2 activity at nanomolar concentrations at the rat blood-brain barrier in the ex vivo assay. Based on studies in wild type and abcg2-/- mice, we observed that oral curcumin increased Cmax and relative bioavailability of sulfasalazine by selectively inhibiting ABCG2 function. CONCLUSIONS: This study validates our previous in vitro results with human ABCG2 (Chearwae et al., Mol. Cancer Ther. 5:1995-2006, 2006) and provides the first in vivo evidence for the inhibition by curcumin of ABCG2-mediated efflux of sulfasalazine in mice. Based on these studies, we propose that non-toxic concentrations of curcumin may be used to enhance drug exposure when the rate-limiting step of drug absorption and/or tissue distribution is impacted by ABCG2.
