Cation pump activity and membrane permeability in human senile cataractous lenses

Abstract

The majority of human senile cataractous lenses show a progressive alteration of electrolyte levels resulting in increased lens sodium and decreased potassium, and a concomitant increase in lens water. These changes are known to be associated with the cortical type of senile cataract. The aim of this study was to investigate the mechanisms responsible for the osmotic imbalance in cortical cataract. Determination of Na,K-ATPase activity gave a wide range of values that were not significantly different from normal controls, but rubidium influx showed a normal accumulation in cataractous lenses demonstrating a normal functioning of the cation pump. Both sodium influx and rubidium efflux are increased in the cataractous lenses and the increase is proportional to the absolute level of lens sodium. These results suggest that the biochemical change responsible for the osmotic imbalance in human senile cataract is not a defect in the cation pump mechanism but rather an increase in lens membrane permeability.