Origins of the transient anterior-posterior asymmetry in the frog lens fiber potential

Abstract 1. 1. The origin of the transient asymmetry of intracellular resting potentials between the anterior and posterior lens fibers was investigated in the isolated American bullfrog lens by a conventional microelectrode technique. 2. 2. In high K + , Rb + , Cs + , or NH + 4 test solution applied only to the lens anterior or posterior side, anterior fibers depolarized at a slower rate than posterior ones. After a long exposure, however, the transient potential difference disappeared. The magnitude of the depolarizations of the lens fibers was in the order of K + > Rb + > Cs + > NH + 4 . 3. 3. The resting potentials plotted as a function of external K + concentrations ([K] 0 ) were in agreement with Nernst equation predictions with a slope of 58 mV/decade ion concentration change. 4. 4. A small Na + permeability is unmasked at a [K] 0 less than 10 mM. 5. 5. It was concluded that the transient difference measured in potentials of anterior and posterior lens fibers on increasing external K + , Rb + , Cs + or NH + 4 depends on the anterior epithelial cell layer, which is a diffusional barrier for ions penetrating into the lens interior.