Journal
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
Volume 99, Issue 6, Pages 3511-3516Publisher
NATL ACAD SCIENCES
DOI: 10.1073/pnas.022049799
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Funding
- NCI NIH HHS [CA80900, R01 CA080900] Funding Source: Medline
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The human multidrug resistance P-glycoprotein uses ATP to transport a wide variety of structurally unrelated cytotoxic compounds out of the cell. In this study, we used cysteine-scanning mutagenesis and cross-linking studies to identify residues that are exposed to the drug-binding site upon vanadate trapping. In the absence of nucleotides, C222(TM4) was cross-linked to C868(TM10) and C872(TM10); C306(TM5) was cross-linked to C868(TM10), C872(TM10), C945(TM11), C982(TM12), and C984(TM12); and C339(TM6) was cross-linked to C868(TM10), C872(TM10), C942(TM11), C982(TM12), and C985(TM12). These cysteines are in the middle of the predicted transmembrane (TM) segments and form the drug-binding site. Cross-linking between 332C(TM6) and cysteines introduced at the extracellular side of other TM segments was also done. In the absence of nucleotides, residues 332C and 856C on the extracellular side of TMs 6 and 10, respectively, were cross-linked with a 13-Angstrom cross-linker (M8M, 3,6-dioxaoctane-1,8-diyl bismethanethiosulfonate). ATP plus vanadate inhibited cross-linking between 332C(TM6) and 856C(TM10) as well as those in the drug-binding site. Instead, vanadate trapping promoted cross-linking between 332C(TM6) and 976C(TM12) with a 10-Angstrom cross-linker (M6M, 1,6-hexanediyl bismethanethiosulfonate). When ATP hydrolysis was allowed to proceed, then 332C(TM12) could form a disulfide bond with 975C(TM12). The cross-linking pattern of 332C(TM6) with residues in TM10 and TM12 indicates that the drug-binding site undergoes dynamic and relatively large conformational changes, and that different residues are exposed to the drug-binding site during the resting phase, upon vanadate trapping and at the completion of the catalytic cycle.
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