Glycation-induced crosslinking of calf lens crystallins.

To investigate the possible role of glycation in the onset of diabetic cataract we used calf lens crystallins as a model. After incubation with reducing sugars, the proteins were investigated by high-pressure gel permeation chromatography, SDS-PAGE and analytical ultracentrifugation. Glucose-6-phosphate incubation resulted in an increase in mean molecular weight of all crystallin fractions and the occurrence of high-molecular weight material, partly formed by disulphide bonds. The glycated crystallins showed a decrease of tryptophan fluorescence and an increase of a specific non-tryptophan fluorescence. This fluorescence was, however, not exclusively associated with the high molecular weight protein, but was present in all protein fractions.