Hypertension and kidney dysfunction in sodium transport observed in the Milan hypertensive strain (MHS) of rats are genetically associated with point mutations of adducin, an actin- and spectrin-binding protein of the membrane cytoskeleton. Polymorphism in the adducin locus has been reported to occur also in cases of human primary hypertension. In this study we show by immunostaining that adducin is localized along the basolateral epithelial membrane surface of the entire proximal and distal tubule with no detectable differences between MHS rats and the normotensive control strain (MNS). However, the total amount of adducin in kidney homogenates is reduced by about 45% in MHS rats as determined by quantitative immunoblotting. In erythrocyte membranes of MHS rats, adducin is reduced approximately 10%. The reduction of renal adducin in MHS rats is mainly caused by a reduction of the adducin pool that is loosely associated with kidney membranes and can be released by the non-ionic detergent, Triton X-100. The Triton-resistant, tightly membrane-bound pool of renal adducin differed by approximately 10% between MHS and MNS rats. Since several ion transporters have been shown to be tethered to the membrane cytoskeleton, we suppose that the reduction of the dynamic, loosely bound pool of adducin in MHS rats might interfere with the normal turnover and incorporation of yet unknown transporters involved in kidney sodium transport. However, the Na+,K+-ATPase appears to be not involved, as indicated by normal distribution and amounts of NA+,K+-ATPase in the kidney of MHS rats revealed by immunostaining and immunoblotting.