Cross-linking of lens crystallin proteins induced by tryptophan metabolites and metal ions: implications for cataract development.

Long-wavelength solar UV radiation is implicated in photodamage to the human eye. The human lens contains multiple tryptophan-derived compounds that have significant absorbance bands in the UVA region (λ 315-400 nm) that act as efficient physical filters for these wavelengths. The concentrations of many of these UV filter compounds decrease with increase in age, resulting in diminished protection, increased oxidative damage and the accumulation of modified proteins implicated in nuclear cataract formation.

Proteins protect lipid membranes from oxidation by thiyl radicals.

Oxidation of polyunsaturated fatty acids by thiyl radicals derived from GSH or Cys is believed to be responsible for some of the biological damage resulting from lipid oxidation under oxidative stress. However, this has not been demonstrated in complex biological systems. In this study, we measured the formation of lipid hydroperoxides in liposomes exposed to radicals generated by gamma radiation from GSH, GSSG, GSMe, Cys and Met.

Effect of proteins and amino acids on oxidation of liposomes by hydroxyl and peroxyl free radicals.

The ability of proteins to protect model liposome membranes from oxidation by hydroxyl and peroxyl free radicals was investigated.

Peroxidation of proteins and lipids in suspensions of liposomes, in blood serum, and in mouse myeloma cells.

There is growing evidence that proteins are early targets of reactive oxygen species, and that the altered proteins can in turn damage other biomolecules. In this study, we measured the effects of proteins on the oxidation of liposome phospholipid membranes, and the formation of protein hydroperoxides in serum and in cultured cells exposed to radiation-generated hydroxyl free radicals. Lysozyme, which did not affect liposome stability, gave 50% protection when present at 0.

Assessing the effect of reactive oxygen species on Escherichia coli using a metabolome approach.

A two-dimensional thin-layer chromatographic analysis of [14C]-labelled metabolites in Escherichia coli was employed to follow metabolic shifts in response to superoxide stress. Steady-state challenge with paraquat at concentrations inducing SoxRS-controlled genes resulted in several alterations in metabolite pools, including a striking increase in valine concentration. Elevated valine levels, together with increased glutathione and alkylperoxidase, are proposed to constitute an intracellular protection mechanism against reactive oxygen species.