Margarida de Mello Aires scite author profile

2. Experiments were performed in control rats, in animals undergoing metabolic acidosis or alkalosis and in control and acidotic rats receiving the carbonic anydrase inhibitor Diamox. 3. In all experiments, the rates of tubular bicarbonate reabsorption and of phosphate acidification (H ion secretion) were proportional to luminal buffer levels. The change of luminal acid concentrations followed first-order kinetics.4. Steady-state transepithelial pH differences were reduced in metabolic alkalosis and after diamox but augmented during metabolic acidosis.5. Acidification half-times were prolonged in metabolic acidosis and after Diamox but remained similar to control levels in metabolic alkalosis.6. From the observation that both bicarbonate reabsorption and * Supported by grants from Fundacao de Amparo a Pesquisa do Est. Sao Paulo, Cons.

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Sodium in renal tubular acidification kinetics

Aires¹,

Malnic²

1979

American Journal of Physiology-Renal Physiology

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Renal proximal tubules and their peritubular capillaries were perfused with mammalian Ringer solutions containing different sodium concentrations. In stop-flow microperfusion experiments, the pH was measured by means of antimony microelectrodes, permitting calculation of rates of H ion secretion and bicarbonate reabsorption. These rates, as well as transepithelial pH and bicarbonate gradients, were significantly reduced at ambient concentrations of 20 and 4 meq/liter Na+. However, even at the lowest sodium concentrations (4 meq/liter), H ion secretion was still 74%, and bicarbonate reabsorption of 64% of control rates. In similar conditions, sodium reabsorption as measured by the split-droplet technique fell to practically zero. Ouabain, 10(-3) M, in capillaries reduced bicarbonate reabsorption by 31%, and 3 X 10(-4) M furosemide in lumen and capillaries reduced acidification by 29%. At pH 8--9 in capillaries, sodium transport was normal while acidification was markedly reduced. These data show that low sodium levels impair renal tubular acidification, but they do not support a rigid coupling of these transport processes.

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PCO2 in renal cortex

Aires

Lopes

Malnic

1990

American Journal of Physiology-Renal Physiology

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In a number of recent investigations a renal cortical PCO2 higher than that of systemic blood was reported. We have studied this problem with the use of micro-Severinghaus electrodes based on antimony, H+ liquid ion exchange, and glass pH electrodes with an inner buffer solution containing 0.5 mg/ml carbonic anhydrase (CA). Measurements in renal cortical structures (renal tubules, star vessels, capillaries, and glomeruli in Munich-Wistar rats) were compared with determinations in renal vein or artery performed with the same electrode in sequence. No significant differences in PCO2 were found between cortical structures and renal vein in control rats, in metabolic alkalosis, respiratory acidosis and alkalosis, and after CA inhibition. Nevertheless, absolute PCO2 levels, which followed the PCO2 of systemic blood, were markedly different in these groups. Measurements of pH and PCO2 at the same tubule site were compatible with HCO3- determinations in tubule fluid in vitro (made with use of the Henderson-Hasselbalch equation) in control rats. When proximal tubules were pump-perfused in vivo with a solution containing 30 mM NaHCO3, measured PCO2 approached that of the perfusing solution at high pump rates, and approached the free-flow value as rates were reduced to zero, indicating that the CO2 generated in the lumen equilibrated rapidly across the epithelium. Reducing renal blood flow by aortic clamping reduced renal cortical PCO2. In conclusion, in a large number of experimental conditions renal cortical PCO2 was never higher than that measured in systemic blood.

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