The Journal of clinical investigation
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The present study evaluates the effect of acute hypercapnia on renal total CO2 (tCO2) reabsorption after inhibition of renal carbonic anhydrase. Simultaneous renal clearance studies and free-flow micropuncture studies of the superficial proximal tubule were performed on plasma-repleted Sprague-Dawley rats treated with acetazolamide, 50 mg/kg body weight. Acute hypercapnia (arterial PCO2, 120 mmHg; blood pH, 7.02) was induced by ventilation with a 10% CO2-90% O2 gas mixture. ⋯ To eliminate this effect, additional experiments were performed in which the experimental kidney was denervated before study. Denervation prevented the change in the single nephron filtration rate during acute hypercapnia, but absolute and fractional proximal tCO2 reabsorption remained elevated in comparison to denervated controls. The concentration of H2CO3 in the late proximal tubule, calculated from the measured luminal pH and bicarbonate concentration and the estimated cortical PCO2, was higher in the hypercapnic group, which was a finding compatible with H2CO3 cycling from lumen into proximal tubular cell, which provided a source of hydrogen ions for secretion.