The substrate anion selectivity filter in the human erythrocyte Cl-/HCO3- exchange protein, AE1

AE1 facilitates Cl-/HCO3- exchange across the erythrocyte membrane. To identify residues involved in substrate selection and translocation, we prepared an array of single cysteine mutants in an otherwise cysteineless background. These mutants spanning the C-terminal portion of the AE1 membrane domain from Phe(806)Cys(885) were characterized for functional activity when expressed in human embryonic kidney 293 cells by measurement of changes of intracellular pH associated with bicarbonate transport. To identify residues involved in substrate translocation, transport activity was assessed for each mutant before and after treatment with the following sulfhydryl reagents: anionic parachloromercuibenzenesulfonate; permeant (2-aminoethyl) methanethiosulfonate; and cationic [2-(trimethylammonium) ethyl] methanethiosulfonate ( MTSET). Among the 80 mutants, only certain key residues in the Val(849)Leu(863) region were inhibited by the sulfhydryl reagent, consistent with direct involvement of these sites in anion transport. In the last two transmembrane segments, only mutants in the extracellular portion of the transmembrane segments could be inhibited by sulfhydryl reagent, suggesting that the outer portions line the translocation channel and the inner portions have some other role. Sensitivity to cationic MTSET and effects of Cl- identified the substrate charge filter as Ser(852)-Leu(857).