The nitrite/alpha crystallin reaction: A possible mechanism in lens matrix damage

Recent work has explored the potential deleterious role that nitric oxide (NO) and its derivatives may have in human disease. The many by-products of NO include nitrite ion, which accumulates in the anterior chamber during ocular inflammation and can be derived from cigarette smoking. Cigarette smoking has been strongly linked to nuclear cataract formation, although the mechanism remains unknown. We have previously observed that nitrite reactions with the matrix proteins elastin and collagen produce damaging effects that mimic those observed in age- and smoking-related illnesses. In the present study we report on the reaction of nitrite with alpha crystallin, the major lens matrix protein. Incubations at neutral pH and body temperature of nitrite with alpha crystallin resulted in protein modifications indicative of oxidative damage and similar to changes seen in the aging lens as well as cataracts. These include increased fluorescence, yellowing and protein cross-linking. L-kynurenine, a tryptophan derivative, was identified as a reaction product. L-kynurenine was also formed from the reaction of nitrite with free tryptophan. Thus, this non-enzymatic nitration of alpha crystallin provides a novel mechanism by which lens proteins may be damaged in vivo. Since human exposure to nitrite is increased by cigarette smelting, this reaction could provide an explanation for the association between nuclear cataracts and smoking. (C) 2000 Academic Press.