Red blood cell Li+/Na+ exchange in patients with diabetic nephropathy and essential hypertension: therapeutic implications.

Abstract

Patients who develop diabetic nephropathy, one of the leading causes of end-stage renal diseases in Western communities, have an increased red cell Li+/Na+ countertransport (CT). Li+/Na+ CT is a membrane function which exchanges intracellular Li for extracellular Na in vitro. High Li+/Na+ CT reflects abnormal kinetic properties of red cell membrane Na/H exchange. A widespread abnormality of Na/H exchange could play a major role in the pathogenesis of diabetic nephropathy as well as of cardiovascular diseases since Na/H exchange is involved in the regulation of cell pH and cell volume; in the cellular response to hormones, mitogens, and growth factors; and in the renal reabsorption of Na and bicarbonate. Li+/Na+ CT is under genetic control and raised in a subgroup of patients with essential hypertension. Among these patients, high Li+/Na+ CT is associated with increased glomerular filtration rate, filtration fraction, proximal fractional Na reabsorption, microalbuminuria, plasma renin activity, and kidney and cardiac volume. Increased Li+/Na+ CT is often associated with hyperlipidemia, hyperuricemia, reduced insulin sensitivity, and obesity. The whole of these observations may explain why patients with diabetes or essential hypertension and increased Li/Na CT are at risk of early renal and cardiac impairment.