The multiple drug resistance protein 1 (MRP1 or ABCC1) transports anticancer drugs and normal cell metabolites. Leucotriene C(4) (LTC(4)) is one of the highest affinity substrates of MRP1. In this study, we have synthesized and characterized a novel photoreactive azido analogue of LTC(4) (AALTC(4)). The specificity of AALTC(4) binding to MRP1 was confirmed using an LTC(4)-specific monoclonal antibody. Moreover, binding with radioiodinated [(125)I]AALTC(4) (or IAALTC(4)) to MRP1 was dramatically competed with unmodified LTC(4) and to a lesser degree by glutathione (GSH). Oxidized glutathione (GSSG) slightly increased IAALTC(4) binding to MRP1, while MK571, verapamil, and vincristine inhibited IAALTC(4) binding to MRP1. Using AALTC(4) together with a panel of epitope-specific and LTC(4)-specific monoclonal antibodies, we identified LTC(4) binding sites in MRP1. Western blotting of large tryptic fragments of MRP1 with three well-characterized epitope-specific mAbs (MRPr1, QCRL1, and MRPm6) showed LTC(4) binding in both the N- and C-terminal halves of MRP1. Furthermore, a peptide corresponding to the N-terminal membrane-spanning domain of MRP1 (MSD0) was photoaffinity labeled by AALTC(4), indicating that MSD0 contains an LTC(4) binding site. Higher resolution mapping of additional LTC(4) binding sites was obtained using eight MRP1 variants with each containing hemaglutanin A (HA) epitopes at different sites (at amino acid 4, 163, 271, 574, 653, 938, 1001, or 1222). MRP1 variants were photoaffinity labeled with IAALTC(4) and digested with trypsin to isolate specific regions of MRP1 that interact with LTC(4). These results confirmed that sequences in MSD0 interact with IAALTC(4). Other regions that were photoaffinity labeled by IAALTC(4) include TM 10-11, TM 16-17, and TM 12, shown previously to encode MRP1 drug binding site(s). Together, our results show a high-resolution map of LTC(4) binding domains in MRP1 and provide the first direct evidence for LTC(4) binding within MSD0.
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