ABSTRACT
PURPOSE: Exposure to UV-B light (wavelength, 290-320 nm) is a well-documented risk factor for age-related cataracts. As the lens ages, beta-crystallins tend to undergo proteolytic cleavage of their terminal extensions. To delineate the effects of loss of terminal arms on beta-crystallin function, the sensitivity of purified recombinant wild-type (rbetaA3) to UV-irradiation induced aggregation was compared with that of betaA3-crystallin missing the N-terminal extension (rbetaA3tr). METHODS: Proteins were expressed in baculovirus-infected Sf9 cells and purified by chromatography. Purified protein solutions (pH 7.4) were reduced by using Tris (2-carboxyethyl) phosphine HCl and irradiated with a 308-nm excimer laser at physiologically relevant UV doses and wavelengths (308 nm), and light-scattering (633 nm) was measured. Irradiated crystallins were analyzed by matrix-assisted desorption ionization (MALDI) and tandem liquid chromatography/mass spectrometry (LC-MS/MS). RESULTS: UV-irradiation of both rbetaA3 and rbetaA3tr resulted in major loss of soluble protein, as shown by absorption at 280 nm, size-exclusion chromatography (SEC) and SDS-PAGE, with concomitant formation of insoluble aggregates producing light-scattering. Compared with wild-type rbetaA3, rbetaA3tr showed a significant tendency to begin scattering light at lower UV dose and had a higher aggregation rate with increasing UV exposure. Changes in irradiated crystallins include aggregation and cross-linking, photolysis, and oxidation of methionine and tryptophan residues. CONCLUSIONS: Loss of beta-crystallin terminal arms appears to increase their tendency to aggregate in response to UV irradiation, suggesting that this loss in the maturing lens may increase susceptibility to age-related cataract.
