Bicarbonate/chloride antiport in vero cells: I. Evidence for both sodium‐linked and sodium‐independent exchange

Abstract

The effect of bicarbonate on the ability of cells to regulate the internal pH after acid and alkali loads was studied. In the presence of Na⁺, the normalization of the internal pH after acid loads occurred more rapidly in the presence than in the absence of bicarbonate. DIDS (4,4′-diisothiocyano-2,2′-stilbene-disulfonic acid) strongly inhibited the pH increase, whereas amiloride inhibited it to a lesser extent. The Na⁺-linked, bicarbonate-dependent pH_i increase after an acid load was strongly reduced in cells depleted of Cl⁻. When cells were transferred to gluconate or mannitol balanced buffers containing bicarbonate, there was a rapid alkalinization of the cytosol, apparently due to influx of bicarbonate induced by chloride efflux. When the internal pH was below 7.0, the pH increase was much more rapid in the presence than in the absence of Na⁺, whereas at higher internal pH, there was no measurable effect of Na⁺. The ability of the cells to reduce the internal pH after an alkali load was increased in the presence of bicarbonate. The data indicate that both Na⁺-linked and Na⁺-independent bicarbonate/chloride exchange occur in Vero cells.