The Effect of Glucose on Urinary Cation Excretion during Chronic Extracellular Volume Expansion in Normal Man

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Abstract

Both glucose administration and extracellular volume expansion augment urinary calcium and magnesium excretion. While volume expansion also augments sodium excretion, glucose induces an antinatriuresis. To examine the interrelationships of volume expansion and of glucose administration on sodium, calcium, and magnesium excretion, the effects of glucose were evaluated during clearance studies in the same subjects before and after chronic extracellular volume expansion produced by desoxycorticosterone acetate (DOCA) and a normal dietary sodium intake. The augmentation of UCaV and UMgV by glucose was simply additive to the increments in divalent cation excretion caused by “escape” from the sodium-retaining effects of DOCA. Glucose administration reduced UNaV, an effect exaggerated after DOCA escape and associated with reductions in volume/glomerular filtration rate (V/GFR) and CNa + CH2O/GFR, suggesting augmented proximal tubular reabsorption. Before glucose, UNa was inversely correlated with UG, and after glucose administration CNa/GFR was inversely correlated with TG/GFR. We propose that the availability of glucose in the proximal tubule stimulates Na reabsorption while delaying development of a chloride diffusion potential, thereby inhibiting tubular reabsorption of Ca and Mg.

Authors

Edward J. Lennon, J. Lemann Jr., W. F. Piering, L. S. Larson