THE HUMAN ERYTHROCYTE Cl‐DEPENDENT Na‐K COTRANSPORT SYSTEM AS A POSSIBLE MODEL FOR STUDYING THE ACTION OF LOOP DIURETICS

1 The recent demonstration of the chloride‐dependence of the red cell Na‐K cotransport system suggests an analogy between this process and the active Cl − absorption in the ascending loop of Henle, which is the target transport system for loop diuretics. 2 Using red cell K influx, four known loop diuretics, six experimental frusemide analogues, two thiazides, two K‐retaining diuretics and one organomercurial were compared for inhibitory potency on the red cell Na‐K cotransport system. 3 Except for mersalyl, whose exact mode of action in the kidney is still in doubt, the inhibition of the red cell system by various loop diuretics was consistent with both published whole body diuretic data and isolated perfused tubule studies, while the system did not respond to the thiazides or the K‐retaining diuretics. 4 It is concluded that the human red cell Na‐K cotransport system is a possible valid model process on which to study the activity of loop diuretics.