Abstract
Defective folding of cystic fibrosis transmembrane conductance regulator protein missing Phe508 (DeltaF508) is the major cause of cystic fibrosis. The folding defect in DeltaF508 cystic fibrosis transmembrane conductance regulator might be correctable because misfolding of a P-glycoprotein (P-gp; ABCB1) mutant lacking the equivalent residue (DeltaY490) could be corrected with drug substrates or by introduction of an arginine residue into transmembrane (TM) segments 5 (I306R) or 6 (F343R). Possible mechanisms of arginine rescue were that they mimicked some of the effects of drug substrate interactions with P-gp or that they affected global folding such that all drug substrate/modulator interactions with P-gp were altered. To distinguish between these mechanisms, we tested whether arginines introduced into other TMs predicted to line the drug-binding pocket (TM1 or TM3) would affect folding. It was found that mutation of L65R(TM1) or T199R(TM3) promoted maturation of processing mutants. We then tested whether arginine suppressor mutations had local or global effects on P-gp interactions with drug substrates and modulators. The L65R(TM1), T199R(TM3), I306R(TM5), or F343R(TM6) mutations were introduced into the P-gp mutant L339C(TM6)/F728C(TM7), and thiol cross-linking was carried out in the presence of various concentrations of vinblastine, cyclosporin A, or rhodamine B. The presence of arginine residues reduced the apparent affinity of P-gp for vinblastine (L65R, T199R, and I306R), cyclosporin (I306R and F343R), or rhodamine B (F343R) by 4-60-fold. These results show that the arginine mutations affect a subset of drug-binding sites and suggest that they rescue processing mutants by mimicking drug substrate interactions with P-gp.
Highlights
A classic example of a genetic disease caused by an amino acid change in a membrane protein is cystic fibrosis
Mutant F343R/⌬Y490 yielded about equivalent amounts of the mature 170-kDa and immature 150-kDa proteins and very little 130-kDa product
The observation that arginine suppressor mutations at positions 65(TM1) and 199(TM3) promoted maturation of P-gp processing mutants indicates that arginine rescue is not a unique property of the TM5-TM6 hairpin and that the likely mechanism is that they mimic drug substrate interaction with P-gp
Summary
A classic example of a genetic disease caused by an amino acid change in a membrane protein is cystic fibrosis. Arginines Disrupt Subset of P-gp Drug-binding Sites essing mutants by a direct mechanism because suppressor mutations (arginines) introduced into TM segments 5 (I306R) and 6 (F343R) promoted maturation of the protein [21] One explanation for this observation was that the arginine residues mimicked the effects of drug substrates by promoting interactions among the TM segments. Packing of the TM segments appears to be the rate-limiting step in folding of ABC transporters because it is the only step that occurs post-translationally [24] To distinguish between these mechanisms, we tested whether arginines introduced into other TM segments predicted to be less important for folding (TMs 1 and 3) would still promote maturation of processing mutants. TM3 appeared to be relatively less important for folding
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