Protein-bound UV filters in normal human lenses: The concentration of bound UV filters equals that of free UV filters in the center of older lenses

PURPOSE. To survey the levels of protein-bound UV filters in the cortices and nuclei of normal human lenses as a function of age and to relate this to the concentration of free UV filters. METHODS. Levels of each of the three kynurenine (Kyn) UV filters, 3-hydroxykynurenine glucoside (30HKG),, Kyn, and 3-hydroxykynurenine (30HKyn), covalently attached to proteins, were determined by using a newly developed method of reductive capture, after base treatment of the intact lens proteins. RESULTS. The data show that, in the normal lens, each of the three UV filters became bound to proteins to a significant extent only after age 50 and, further, that the levels in the nucleus were much higher than in the cortex. These findings are consistent with the lens barrier that forms in middle age. 30HKG was present at the highest levels followed by Kyn, with 30HKyn being attached in the lowest amount. The ratio was 145:4:1 (30HKG-Kyn-30HKyn), with a total protein-bound UV filter concentration in the lens nucleus after age 50 of approximately 1300 picomoles/mg protein. This ratio is in agreement with 30HKG being the most abundant free UV filter in the human lens and 30HKyn being present in the lowest concentration with free Kyn present in intermediate amounts. CONCLUSIONS. The three Kyn UV filters are bound to the nuclear proteins of all normal lenses over the age of 50. Indeed in the center of older normal lenses, the concentration of UV filters bound to proteins is approximately equal to that of the free filters. Since bound UV filters promote oxidation of proteins after exposure to wavelengths of light that penetrate the cornea, lenses in middle-aged and older individuals may be more prone to photooxidation than those of young people.