The effects of anions on fluid reabsorption from the proximal convoluted tubule of the rat.

1. Fluid reabsorption from surface proximal tubules of the rat was measured in vivo using stationary microperfusion techniques. Reabsorptive rate (Jv) was measured from droplets containing chloride as the main reabsorbable anion and when chloride was substituted by bromide, iodide, nitrate, acetate, isethionate or methylsulphate in either the tubular lumen alone or in both lumen and peritubular capillaries. 2. In tubules with an intact blood supply, droplet volume decreased in a manner best described by a single exponential and substitution of chloride by nitrate or bromide had no effect on Jv. Substitution by iodide or acetate inhibited Jv by approximately 17% but substitution by methylsulphate or isethionate caused droplets to transiently increase in volume before shrinkage which was itself inhibited by approximately 50%. The inhibitory action of isethionate was found to be concentration dependent. 3. Recollection and analysis of droplets which were initially free of chloride, containing either nitrate or isethionate, showed that chloride entered these droplets, but that the initial rate of chloride entry was greater for nitrate than isethionate droplets. 4. When tubules and capillaries were perfused with chloride solutions containing no bicarbonate, Jv was reduced to about 20% of the value when peritubular capillary blood flow was intact. Substituting chloride in the tubular and capillary perfusion revealed a sequence for supporting fluid reabsorption that was identical to that when chloride was substituted in tubule fluid alone: bromide = nitrate greater than iodide = acetate greater than isethionate. Addition of 2.0 mmol l-1 NaCN reduced the reabsorptive flux to zero. 5. The results of this study are consistent with transcellular transport of anions across the proximal tubular epithelium. The pathways for anion transport are likely to involve a series of non-selective mechanisms such as anion exchangers.