Cataract development in γ-glutamyl transpeptidase-deficient mice

The present study was undertaken to analyse the relationship of lens glutathione (GSH) and light to cataract development in mice deficient in gamma -glutamyl transpeptidase (GGT). These mice have reduced levels of cysteine and GSI-I in the eye and develop cataracts. GGT-deficient mice raised under normal vivarium conditions, showed no cataractous changes at birth, but by 1 week they had developed nuclear opacities. By 3 weeks more severe cataracts develop, and lens GSH levels are approximately 6-7 % of wild type levels. By 6-11 weeks cataracts show nuclear and cortical involvement. liquefaction and calcification. Single cell DNA electrophoresis (comet assay) demonstrated mild DNA damage in the lens epithelium. GGT-deficient mice raised in the dark beginning the day after conception all developed cataracts, but these were less severe than those in GGT-deficient mice raised with normal vivarium lighting. Administration of N-acetyl cysteine (NAC) raises lens GSH and almost completely prevents cataract development. Our data indicate that cataract development in GGT-deficient mice is multifactorial and results From exogenous damage (exposure to light), reduced lens GSH levels, and nutritional effects secondary to low cysteine levels. (C) 2000 Academic Press.