AJP - Renal Physiology, Vol 242, Issue 1 23-F29, Copyright © 1982 by American Physiological Society

ARTICLES

Studies of the urinary acidification defect induced by lithium

N. Bank, P. D. Lief, H. S. Aynedjian and B. F. Mutz

Experiments were carried out in rats and isolated turtle bladders to study the defect in H+ transport induced by LiCl. After 3-4 days of intraperitoneal LiCl, rats developed urinary findings of "distal" renal tubular acidosis. Proximal tubular fluid pH measured in situ by glass microelectrodes was higher in lithium-treated rats than in acidotic controls. Proximal fluid total CO2 [tCO2] was also higher, and the fraction of tCO2 leaving the proximal tubule was 14 vs. 7% (P less than 0.001). Impaired acidification was also apparent beyond distal convoluted tubules, as judged by normal distal tCO2 reabsorption but increased HCO3(-) in the urine. During NaHCO3 loading, the proximal defect was ameliorated but not the distal. Turtle bladder studies showed that mucosal lithium inhibits H+ secretion secondary to reducing transepithelial electrical potential, presumably by hyperpolarization of the luminal membrane. A similar mechanism may be responsible for lithium's effect on the distal nephron. Inhibition of proximal tubular HCO3(-) reabsorption is probably not attributable to electrical potential changes but might be due to interference of luminal membrane Na+ entry by Li+ and reduced (Na+ + Li+)-H+ exchange.

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