Do drug substrates enter the common drug-binding pocket of P-glycoprotein through "gates"?

Overexpression of P-glycoprotein (P-gp; ABCB1) can cause multidrug resistance during cancer and AIDS chemotherapy because of its ability to transport a broad range of structurally unrelated compounds from the cell. P-gp is a member of the ABC family of proteins. It is a single polypeptide containing four domains--two transmembrane (TM) domains each of which contains six TM segments, and two nucleotide-binding domains. Chemical modification and cross-linking studies of cysteine mutants of P-gp indicate that the common drug-binding pocket is at the interface between the TM domains. It has been postulated that drug substrates enter the lipid bilayer, are extracted by P-gp and transported to the extracellular medium. It is not clear how drug substrates enter the drug-binding pocket. Here, we propose that drug-substrates diffuse from the lipid bilayer into the drug-binding pocket through "gates" formed by TM segments at either end of the drug-binding pocket.