Cl--dependent and Cl--independent Na+/ HCO3- acid extrusion in cultured rat cerebellar astrocytes.

It is still uncertain whether the Na+-dependent Cl--HCO3- exchanger (NCBE) is expressed in mammalian astrocytes. Using fluorescent indicators to monitor the intracellular pH (pHi) and intracellular Na+ or Cl- levels, the NCBE in cultured rat cerebellar astrocytes was examined in detail. In nominally bicarbonate-free (Hepes-buffered) medium, a marked pHi recovery from internal acid load was seen which could be blocked completely by 30 microM HOE 694, a specific Na+-H+ exchanger isoform 1(NHE-1) inhibitor, at a pHi above 6.9. These conditions were therefore used to block NHE activity in CO2/HCO3-buffered media when the NCBE was being studied at pHi above 6.9. After internal acid loading in completely Cl--free bicarbonate-buffered medium (containing HOE 694), the rates of pHi recovery and transient Na+ influx were considerably slowed, and the Cl--dependent acid extrusion was both Na+- and 4,4-diisothiocyano-stilbene-disulphonic acid (DIDS)-sensitive. Moreover, a HCO3-dependent Cl- efflux during internal acid injection was seen. These results suggest that the NCBE is present in astrocytes. Following repetitive internal acid loading by addition of 5% CO2 to internal Cl- depleted cells, a similar rate of pHi recovery was consistently seen, suggesting Cl--independent pHi regulation also occurred in astrocytes. Moreover, this pHi recovery was completely blocked in the absence of sodium or on addition of DIDS, confirming that the Na+-HCO3 cotransporter (NBC) is present. Thus, the present study provides evidence that both the NCBE and NBC play important roles in acid extrusion in cultured mammalian astrocytes.