Abnormal Erythrocyte Na+K+Cotransport System, A Proposed Genetic Marker of Essential Hypertension

Abstract

In erythrocytes, the extrusion of a cell sodium load is accomplished by the ouabain-sensitive sodium-potassium pump and by the furosemide-sensitive sodium-potassium cotransport, which operate against the passive sodium permeability. The precise characterization of these transport pathways requires the determination of the turnover rates of cation translocation and the affinities for subtrates and effectors. The preliminary results of such kinetic study in essential hypertension is reported here. An abnormally low rate of net sodium extrusion by the sodiumpotassium co-transport system was observed in essential hypertensive patients and in a high proportion of their young normotensive offspring. A normal cotransport system found in secondary hypertensive subjects devoid of familial history of hypertension confirmed that the abnormal cotransport system is not the consequence of high blood pressure per se. At the molecular level, the cotransport abnormality seems to be consecutive to a diminished apparent affinity for intracellular Na⁺.