Rat Mrp2 (ABCC2), an ATP-driven pump located on canalicular domain of hepatocytes, exports glutathione S-conjugates (GS-X) and reduced glutathione (GSH) among its wide variety of substrates. Previous studies have shown that chelerythrine (CHEL), a quaternary benzophenanthridine cation, reacts with GSH to form a reversible adduct under physiological conditions. Here we report that CHEL can strongly stimulate GSH efflux by Mrp2, when it is constitutively expressed in polarized canine kidney cells, thereby leading to the depletion of cellular GSH. Transepithelial transport experiments indicate that Mrp2 transports GSH and CHEL with a 1:1 stoichiometry, which can be readily inhibited by GS-bimane, a GS-X substrate for Mrp2. Moreover, CHEL can block Mrp2-mediated LTC4 uptake by membrane vesicles with an IC₅₀ ~100 µM in the presence of GSH, but not S-methyl GSH or ophthalmic acid. Thus, the thiol group of GSH is required for inhibition of Mrp2 in the presence of CHEL. Our results suggest that CHEL stimulates GSH efflux by forming a reversible GS-CHEL adduct, which is transported by Mrp2 and dissociates extracellularly.