On the interaction of calcium, sodium, and water transport in the diuresing kidney

Abstract

Diuresis was induced in cats by infusion of 3% glucose in 10% ethanol. When urine flow had stabilized at high levels a solution of the Ca salt of ethylenediaminetetraacetate (Na₂CaEDTA) was infused as a control for the effect of the EDTA molecule on renal function. The infusion was then changed over to the same molar rate of Na₂EDTA, which resulted in a 30% decrease in serum Ca levels. Ca was then repleted rapidly as CaCl₂ given intravenously, and the infusion was shifted back to Na₂CaEDTA. The decrease in extracellular Ca concentration was associated with a significant antidiuresis. In further experiments on anesthetized dogs, osmotic diuresis was induced either by (a) infusion of hyperosmotic mannitol solutions, which were then shifted over to hypertonic NaCl, or (b) the same solutions in reverse order. Ca excretion correlated in linear fashion with Na excretion, but not with total solute excretion or with filtration rate. When Ca was added to the mannitol infusion, Na excretion increased in linear relation to Ca. It is suggested that Ca (a) decreases tubular permeability for water reabsorption and (b) decreases Na reabsorption, while Na (c) decreases Ca reabsorption. Mechanisms a and b would appear to involve membrane transport directly in the proximal tubule.