Abstract
P-glycoprotein (P-gp) is an ATP-binding cassette drug pump that protects us from toxic compounds and confers multidrug resistance. The protein is organized into two halves. The halves contain a transmembrane domain (TMD) with six transmembrane segments and a nucleotide-binding domain (NBD). The drug- and ATP-binding sites reside at the TMD1/TMD2 and NBD1/NBD2 interfaces, respectively. ATP-dependent drug efflux involves changes between the open inward-facing (NBDs apart, extracellular loops (ECLs) close together) and the closed outward-facing (NBDs close together, ECLs apart) conformations. It is controversial, however, whether the open conformation only exists transiently in intact cells because of the presence of high levels of ATP. To test for the presence of an open conformation in intact cells, reporter cysteines were placed in extracellular loops 1 (A80C, N half) and 4 (R741C, C half). The rationale was that cysteines A80C/R741C would only come close enough to form a disulfide bond in an open conformation (6.9 Å apart) because they are separated widely (30.4 Å apart) in the closed conformation. It was observed that the mutant A80C/R741C cross-linked spontaneously (>90%) when expressed in cells. In contrast to previous reports showing that trapping P-gp in a closed conformation highly activated ATPase activity, here we show that A80C/R741C cross-linking inhibited ATPase activity and drug efflux. Both activities were restored when the cross-linked mutant was treated with a thiol-reducing agent. The results show that an open conformation can be readily detected in cells and that cross-linking of cysteines placed in ECLs 1 and 4 inhibits activity.
Highlights
P-glycoprotein (P-gp) may alternate between the inward-facing or outward-facing conformations during the reaction cycle
Two ATP molecules bind at the interface between the nucleotide-binding domain (NBD), and ATP hydrolysis occurs by an alternating site mechanism [11,12,13,14,15]
Cysteines Introduced into extracellular loops (ECLs) 1 (A80C) and ECL 4 (R741C) of Cys-less P-gp Cross-link Spontaneously—The major goal of the study was to use disulfide cross-linking to test whether we could detect the open conformation of P-gp in intact cells and whether locking P-gp in an open conformation would have an effect on its activity
Summary
P-glycoprotein (P-gp) may alternate between the inward-facing (open) or outward-facing (closed) conformations during the reaction cycle. Results: Cysteines introduced into extracellular loops 1 and 4 cross-linked spontaneously and inhibited drug efflux and ATPase activity. ATP-dependent drug efflux involves changes between the open inward-facing (NBDs apart, extracellular loops (ECLs) close together) and the closed outward-facing (NBDs close together, ECLs apart) conformations. It is controversial, whether the open conformation only exists transiently in intact cells because of the presence of high levels of ATP. In contrast to previous reports showing that trapping P-gp in a closed conformation highly activated ATPase activity, here we show that A80C/R741C cross-linking inhibited ATPase activity and drug efflux. The results show that an open conformation can be readily detected in cells and that cross-linking of cysteines placed in ECLs 1 and 4 inhibits activity
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