In vitro photochemical cataract in mice lacking copper-zinc superoxide dismutase

We here evaluate cataract formation in mice lacking the cytosolic copper-zinc superoxide dismutase (CuZn-SOD) in an in vitro model using irradiation with visible light and riboflavin as a photosensitizing agent. Isolated, cultured lenses from wild-type and CuZn-SOD-null mice were irradiated for 1.5 h by a daylight fluorescent light after preincubation with 10 μM riboflavin for 24 h. Cataract formation was evaluated daily with digital image analysis and ocular staging, and after 5 d 86Rb uptake and water contents of the lenses were determined. Basal superoxide concentrations in freshly isolated lenses from wild-type and CuZn-SOD-null mice were determined with lucigenin-derived chemiluminescense, and enzymatic activities of all three SOD isoenzymes in the murine lens were determined with a direct spectrophotometric method. The cytosolic CuZn-SOD accounts for 90% of the total SOD activity of the murine lens. CuZn-SOD-null lenses showed a doubled basal superoxide concentration, and were more prone to develop photochemical cataract in the present model with more opacification, more hydration, and less 86Rb uptake than lenses from wild-type mice. We conclude that CuZn-SOD is an important superoxide scavenger in the lens, and that it may have a protective role against cataract formation.