Anion transport processes in the mammalian superficial proximal straight tubule.

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The experiments reported in this paper were designed to evaluate some of the characteristics of anion transport processes during fluid absorption from superficial proximal straight tubules isolated from rabbit kidney. We measured net chemical C1- flux during fluid absorption from tubules perfused and bathed with Krebs-Ringer buffers containing 113.6 mM C1-, 10 mM acetate, and 25 mM HCO-/3 at pH 7.4; assessed the effects of carbonic anhydrase inhibitors on net fluid absorption in the presence and absence of CO2; and evaluated the influx and efflux coefficients for [14C]-acetate transport at 37degreesC, at 21degreesC, and in the presence of carbonic anhydrase inhibitors. The experimental data shown that, for this nephron segment, net C1- flux accompanies approximately 27.5% of net Na+ absorption; and net C1- absorption may be accounted for by a passive transport process, primarily diffusional in nature. Fluid absorption in this nephron segment is reduced 40-60% by carbonic anhydrase inhibitors, but only when the tubules are exposed to 95% O2-5% CO2 rather than 100% O2. Thus, it seems probably that approximately half of Na+ absorption in these tubules may be rationalized in terms of a carbonic anhydrase-dependent CO2 hydration process. In addition, there may occur in these isolated proximal tubules an acetazolamide-insensitive moiety of HCO-/3 absorption comparable to that observed for proximal tubules in vivo. Finally, we provide evidence that net efflux of luminal acetate is due to metabolic energy-dependent processes other than CO2 hydration and may, under appropriate conditions, account for approximately one-fourth of net Na+ absorption.

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