Abstract

The resting membrane potential of the human erythrocyte is largely determined by a constitutive Cl − conductance ∼ 100-fold greater than the resting cation conductance. The 4,4′-diisothiocyanostilbene-2,2′-disulfonic acid (DIDS)-sensitive electroneutral Cl − transport mediated by the human erythroid Cl −/HCO 3 − exchanger, AE1 (SLC4A1, band 3) is > 10,000-fold greater than can be accounted for by the Cl − conductance of the red cell. The molecular identities of conductive anion pathways across the red cell membrane remain poorly defined. We have examined red cell Cl − conductance in the Ae1 −/− mouse as a genetic test of the hypothesis that Ae1 mediates DIDS-sensitive Cl − conductance in mouse red cells. We report here that wildtype mouse red cell membrane potential resembles that of human red cells in the predominance of its Cl − conductance. We show with four technical approaches that the DIDS-sensitive component of erythroid Cl − conductance is reduced or absent from Ae1 −/− red cells. These results are consistent with the hypothesis that the Ae1 anion exchanger polypeptide can operate infrequently in a conductive mode. However, the fragile red cell membrane of the Ae1 −/− mouse red cell exhibits reduced abundance or loss of multiple polypeptides. Thus, loss of one or more distinct, DIDS-sensitive anion channel polypeptide(s) from the Ae1 −/− red cell membrane cannot be ruled out as an explanation for the reduced DIDS-sensitive anion conductance.

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