A conserved glutamate is responsible for ion selectivity and pH dependence of the mammalian anion exchangers AE1 and AE2 Academic Article uri icon

abstract

  • The erythrocyte anion exchanger AE1 (band 3) serves as an important model for the study of the mechanism of ion transport. Chemical modification of human erythrocyte AE1 has previously suggested that glutamic acid residue 681 lies within the transport pathway and can cross the permeability barrier. This glutamate is conserved in all anion exchangers sequenced to date. We examined the effect on divalent (sulfate) and monovalent (chloride and bicarbonate) anion transport of mutating the corresponding glutamates in mouse AE1 and the closely related anion exchanger, AE2. Substitution of this conserved glutamate with uncharged or basic amino acids had a negligible effect on the maximal rate of sulfate-sulfate exchange in AE-reconstituted proteoliposomes, but largely abolished the steep pH dependence of sulfate transport observed in wild-type AE1 and AE2. In contrast …

publication date

  • December 1, 1995