In vitro incubation paralleling changes occurring during mouse cataract formation

Abstract

Certain biochemical and morphological changes involved in the formation of osmotic cataracts in the Nakano mouse and galactosemic rat lenses also occur in vitro. Incubation of young, normal, albino mouse lenses in glucose-free medium for 48 hr resulted in a gain in wet weight due to dramatic hydration. The glucose deprived lenses showed a marked decrease in the soluble protein content as is noted in cataract formation in vivo. Chromatography of the soluble protein demonstrated a substantial increase in heavy molecular weight material in the lenses incubated without glucose in comparison to the fresh lenses. A decrease in β H-crystallin was also striking and might be correlated with the disappearance of a 31 000 mol. wt polypeptide band seen by SDS-PAGE gel. Interestingly, the membrane polypeptides in the in vitro incubated lenses mimicked changes observed during cataract formation in vivo. A 23 000 mol. wt polypeptide band became prominent in the membrane fraction of these lenses and there was a concomitant decrease in the 26 000 mol. wt component. Messenger RNAs were present in the glucose deprived lenses as shown by cell-free translation in vitro, although no [ 35S]methionine incorporation into crystallin was noted. Both the hexokinase and glyceraldehyde phosphate dehydrogenase activities in the glucose deprived lenses fell rapidly and were virtually absent at the end of 48-hr incubation period. The data in this report suggest that the glucose deprived incubated mouse lens may serve as an in vitro model to the study of some biochemical and morphological changes occurring in the development of osmotic cataract in vivo.