Renal Bicarbonate Wasting during Phosphate Depletion A POSSIBLE CAUSE OF ALTERED ACID-BASE HOMEOSTASIS IN HYPERPARATHYROIDISM

Abstract

With hyperparathyroidism, serum bicarbonate (HCO₃^-) is low, urinary excretion of HCO₃^- is increased and the apparent T_m for HCO₃^- is reduced. These findings have been ascribed to a direct renal action of parathyroid hormone (PTH). Since hypophosphatemia and phosphate depletion may occur in hyperparathyroidism, it is possible that phosphate depletion could account for the abnormal renal HCO₃^- handling. To test this possibility, renal reabsorption of HCO₃^- was evaluated in dogs before and after phosphate depletion. Serum HCO₃^- was significantly lower in phosphate depleted dogs than in normal animals, and serum HCO₃^- was directly related to serum phosphorus. Both the threshold at which HCO₃^- appeared in the urine and the T_m for HCO₃^- were reduced during phosphate depletion. Intracellular pH of muscle was significantly higher in phosphate depleted dogs than in normals and the pH returned to normal after phosphate repletion. These data show that phosphate depleted dogs, which probably have physiological hypoparathyroidism, display abnormalities in both serum HCO₃^- and its renal handling which are similar to those seen in hyperparathyroidism, supporting the concept that the PTH-induced alterations in HCO₃^- homeostasis may be due to phosphate depletion. The latter could alter cell metabolism, resulting in reduced intracellular H⁺ concentration, which may then impair H⁺ secretion by the renal tubules and decrease their ability to reabsorb HCO₃^-. Consequently, T_m HCO₃^- and serum HCO₃^- fall.