Oxidation of cysteine residues from alpha-A crystallin during cataractogenesis of the human lens.

Although it has been known for many years that opacification of the human lens is accompanied by oxidation of cysteine sulfhydryl groups to half-cystine residues, nothing is known concerning the exact amino acid sequences involved in this oxidative process. Since alpha-A crystallin is one of the major proteins of the lens, and since a decrease in its molecular chaperone activity has been implicated in possible mechanisms of cataract formation, alpha-A crystallin was purified from total lens proteins by reverse phase chromatography, followed by digestion with lys-C endoprotease. Mass spectral analysis of the digest indicated that in normal transparent lenses, cys-131 and cys-142 from alph-A crystallin are present as a mixture of cysteine sulfhydryl and half-cysteine disulfide groups, while identical analysis from cataractous lenses demonstrated undetectable levels of the cysteine sulfhydryl group. Together, these results demonstrate for the first time, the involvement of specific cysteine residues in the oxidative mechanism of human lens opacification.