Localization and Substrate Selectivity of Sea Urchin Multidrug (MDR) Efflux Transporters |
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| Authors: | Tufan G?kirmak Joseph P. Campanale Lauren E. Shipp Gary W. Moy Houchao Tao Amro Hamdoun |
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| Affiliation: | From the ‡Marine Biology Research Division, Scripps Institution of Oceanography, University of California San Diego, La Jolla, California 92093 and ;the §Department of Molecular Biology, The Scripps Research Institute, La Jolla, California 92037 |
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| Abstract: | In this study, we cloned, expressed and functionally characterized Stronglycentrotus purpuratus (Sp) ATP-binding cassette (ABC) transporters. This screen identified three multidrug resistance (MDR) transporters with functional homology to the major types of MDR transporters found in humans. When overexpressed in embryos, the apical transporters Sp-ABCB1a, ABCB4a, and ABCG2a can account for as much as 87% of the observed efflux activity, providing a robust assay for their substrate selectivity. Using this assay, we found that sea urchin MDR transporters export canonical MDR susbtrates such as calcein-AM, bodipy-verapamil, bodipy-vinblastine, and mitoxantrone. In addition, we characterized the impact of nonconservative substitutions in the primary sequences of drug binding domains of sea urchin versus murine ABCB1 by mutation of Sp-ABCB1a and treatment of embryos with stereoisomeric cyclic peptide inhibitors (QZ59 compounds). The results indicated that two substitutions in transmembrane helix 6 reverse stereoselectivity of Sp-ABCB1a for QZ59 enantiomers compared with mouse ABCB1a. This suggests that subtle changes in the primary sequence of transporter drug binding domains could fine-tune substrate specificity through evolution. |
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| Keywords: | ABC Transporter Cancer Drug Resistance Membrane Proteins Multidrug Transporters Protein-Drug Interactions Protein Evolution Sea Urchin QZ59 Enantiomers Stereoselectivity |
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