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  • Title: Analysis of Cl- -HCO3(-) exchange during recovery from intracellular acidosis in cardiac Purkinje strands.
    Author: Vanheel B, de Hemptinne A, Leusen I.
    Journal: Am J Physiol; 1984 May; 246(5 Pt 1):C391-400. PubMed ID: 6326603.
    Abstract:
    The possible role of a Cl- -HCO3(-) exchange mechanism in the recovery from intracellular acidosis of isolated cardiac Purkinje strands was investigated. Intracellular pH (pHi) was measured using double-barreled pH-sensitive microelectrodes. Acidifications were produced by withdrawing 20 meq NH+4 from the superfusate. Experiments were performed in normal CO2-HCO3(-)-buffered, in HCO3(-)free, and in Cl-free solutions and also in the presence of 4-acetamido-4'-isothiocyanostilbene-2,2'-disulfonic acid (SITS), a blocker of Cl--HCO3(-) exchange. In the absence of external HCO3(-), the apparent rate of acid extrusion following induced acidification was only slightly decreased, but the observed effect does not necessarily imply the intervention of a Cl--HCO3(-) exchange mechanism. SITS had little effect on the response to acidification. In zero-Cl- solutions, recovery of pHi from acidosis was not impaired. These observations suggest that in Purkinje fibers, [Cl-]i-[HCO3(-)]o exchange plays no significant role in recovery from intracellular acidification. Moreover, additional evidence is presented in favor of a passive HCO3(-) efflux at steady-state pHi in the normal superfusate. The apparent membrane permeability to HCO-3 was estimated to be 3.2 X 10(-8) cm X s-1.
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