Stimulation of tubular reabsorption of magnesium and calcium by antidiuretic hormone in conscious rats

Abstract

The effect of antidiuretic hormone on urinary electrolyte excretion was investigated by clearance techniques in conscious rats in metabolic cages. Brattleboro rats with hereditary diabetes insipidus (DI) (no ADH) were studied in the absence of exogenous ADH (control group = C,n=4), and after several weeks of continuous dDAVP infusion (period A) followed by discontinuation of dDAVP (period B) (experimental group = E,n=6). dDAVP, a non-pressor antidiuretic analogue to ADH, induced 1) a high urine concentration (2,645±44 (SEM) in group E vs 131±6 mosmol/kg H₂O in group C),P<0.001; 2) no significant change in plasma osmolality (288±2 vs 297±7 mosmol/kg H₂O respectively) and in plasma concentration of major electrolytes, Na, K, Cl, Mg, and Ca; 3) a large decrease in urinary excretion of calcium and magnesium and no change in other electrolyte or total osmolar excretion. Fractional excretions in rats of groups C and E during period A were, respectively, for Na: 0.59±0.03 (SEM) and 0.51±0.33% (NS), for Ca: 2.92±0.62 and 0.34±0.05% (P<0.001) and for Mg: 7.75±0.83 and 1.38±0.28% (P<0.001). After treatment discontinuation, plasma osmolality in group E rose to 304±2 mosmol/kg H₂O (P<0.01 compared to period A) with slight increases in plasma Na and Cl concentrations. Urine osmolality fell below, and urine flow rate rose above values observed in the control group. Fractional excretion of Ca and Mg rose to values seen in DI rats (3.30±0.37%, NS, for Ca) or above (26.95±0.65%,P<0.001, for Mg), with no change in other solute fractional excretion. Other works, from our and other's groups have shown that 1) long-term exposure to dDAVP induces a marked hypertrophy of the epithelium of the thick ascending limb of Henle's loop in its medullary part (MTAL) and 2) dDAVP induces an increase in Ca and Mg tubular reabsorption between end proximal and early distal sites of micropuncture. Taken together, these results suggest that the effects of ADH on divalent cation fractional excretion, seen in the present study, probably results from an increased Ca and Mg voltage-dependent reabsorption in the MTAL. This reabsorption is linked to the increased salt transport induced in this segment, both by a direct effect of ADH and by an indirect effect resulting from the increased solute delivery to the MTAL in the concentrating kidney.