diamide and Cataract

The ability of N-beta-alanyl-5-S-glutathionyl-3,4-dihydroxyphenylalanine (5-S-GAD)-a novel catechol derivative isolated from an insect as an antibacterial substance-to scavenge free radicals and prevent cataract progression was examined. 5-S-GAD scavenged 1,1-diphenylpicrylhydrazyl (DPPH) and superoxide anions (O(2)(*)(-)), and inhibited lipid peroxidation. It also significantly inhibited the onset of glucocorticoid-induced lens opacification in chick embryos. These effects of 5-S-GAD were stronger than those of N-acetylcarnosine and TEMPOL, which are reported to be effective radical scavengers in the prevention of cataract progression. 5-S-GAD clearly delayed the maturation of cataracts induced by diamide in cultured lenses of rats. Daily instillation of 5-S-GAD retarded the development of lens opacity in galactose-fed rats. Biochemical analysis of the lenses revealed that 20-kDa proteins, presumably consisting of alpha-crystallin, were the most susceptible to oxidative stress, which leads to the carbonylation of the side chains of these proteins. alpha-Crystallin carbonylation induced by diamide or galactose was notably inhibited by 5-S-GAD in a dose-dependent manner. Our results show that 5-S-GAD prevents acute lens opacification in these short-term experimental models, possibly in part by virtue of its antioxidative property, and 5-S-GAD is expected to have long-term pharmaceutical effects.

Topics: alpha-Crystallins; Animals; Biphenyl Compounds; Carnosine; Cataract; Cells, Cultured; Chick Embryo; Cyclic N-Oxides; Diamide; Dihydroxyphenylalanine; Disease Progression; Dose-Response Relationship, Drug; Free Radical Scavengers; Galactose; Glucocorticoids; Glutathione; Insecta; Lens, Crystalline; Lipid Peroxidation; Male; Oxidative Stress; Picrates; Protein Carbonylation; Rats; Rats, Sprague-Dawley; Spin Labels; Superoxides

To determine if oxidation enhances turbidity after proteolysis of rat lens crystallins by the calcium-activated protease calpain (EC 3.4.22.17).. Total soluble proteins from young rat lens were hydrolyzed for 24 hr by endogenous lens calpain, and the proteins were further incubated with the oxidant diamide for up to 7 days. Turbidity was measured daily at 405 nm. To measure proteolysis and turbidity in cultured lenses, rat lenses were cultured for 6 days in low calcium medium and diamide. The lenses were then photographed to assess transmission of light. SDS-PAGE and immunoblotting assessed proteolysis of crystallins, alpha-spectrin, and activation of calpain.. Appreciable in vitro turbidity occurred in soluble proteins from young rat lenses after proteolysis of crystallins by endogenous calpain. Calpain inhibitor E64, or anti-oxidants DTE and GSH, inhibited this turbidity. On the other hand, the oxidant diamide markedly enhanced calpain-induced turbidity. Cultured rat lenses showed elevated intralenticular calcium and proteolysis of crystallins by calpain, but no nuclear cataract. Addition of diamide to the culture medium caused development of nuclear cataract.. Diamide enhanced turbidity only when crystallins were proteolyzed. Oxidation may be one of the factors promoting light scatter and insolubilization after proteolysis. These data are consistent with the hypothesis that proteolysis of crystallins from young rat lens may expose cysteine residues, which are then oxidized, become insoluble and scatter light.

Topics: Animals; Antioxidants; Calpain; Cataract; Crystallins; Culture Techniques; Cysteine Proteinase Inhibitors; Diamide; Dithioerythritol; Drug Synergism; Glutathione; Lens, Crystalline; Leucine; Oxidants; Oxidation-Reduction; Peptide Hydrolases; Rats; Rats, Sprague-Dawley

To determine if limited proteolysis of beta-crystallins is associated with insolubilization of proteins in rats lens during maturation and to test if the protease, calpain II, is involved.. Soluble and insoluble lens proteins from 4-day-old to 4-month-old rat lens cortexes and nuclei were separated by two-dimensional electrophoresis. The insoluble proteins from 4-month-old nuclei were electroblotted and the NH2 termini of proteins sequenced. Cleavage sites appearing at 4 months of age were compared to cleavage sites produced by purified calpain II and to cleavage sites appearing in cataracts induced by selenite in vivo or in lenses cultured with calcium ionophore A23187 or diamide.. In solubilization of more than 50% of proteins occurred in the nucleus of the transparent rat lens by 4 months of age. The insoluble protein that formed contained an abundance of partially degraded beta-crystallin polypeptides missing portions of their NH2 terminal extensions. In contrast, these truncated beta-crystallins were largely absent from both the cortex and soluble fraction of the nucleus. The cleavage sites in the insoluble beta-crystallins appearing during maturation in the lens nucleus were similar to cleavage sites produced by purified calpain II and also similar to cleavage sites appearing in the insoluble protein of cataractous lenses.. These results suggest that proteolysis of beta-crystallins by the protease calpain II contributes to protein insolubilization during lens maturation and that acceleration of this insolubilization process is associated with cataract formation in rodent lenses.

Topics: Amino Acid Sequence; Animals; Calcimycin; Calpain; Cataract; Crystallins; Diamide; Electrophoresis, Gel, Two-Dimensional; Lens, Crystalline; Molecular Sequence Data; Organ Culture Techniques; Peptide Fragments; Peptide Mapping; Rats; Rats, Sprague-Dawley; Sodium Selenite; Solubility

Lenses cultured in diamide first developed outer cortical opacities followed by nuclear cataract. Lens hydration and total calcium were markedly increased by diamide. Proteolysis of crystallins were observed in nuclear cataract lenses. Calpain in the soluble fraction of lenses cultured with diamide was decreased, while calpain in the insoluble fraction was increased. Co-culture with E64d, an inhibitor of cysteine protease such as calpain, especially prevented nuclear opacities and proteolysis of crystallins, indicating that calpain was involved in cataract formation by diamide.

Topics: Animals; Blotting, Western; Calcium; Calpain; Cataract; Crystallins; Culture Techniques; Diamide; Electrophoresis, Polyacrylamide Gel; Hydrolysis; Lens, Crystalline; Rats; Rats, Inbred Strains

This study deals with the effects of the SH oxidizing agent diamide (diazene dicarboxylic acid bis-(N,N-dimethyl-amide)) on the water-soluble proteins from rabbit lenses. The dialyzed protein extracts were incubated for 0.5-1.5 h with various concentrations of diamide. Alterations in sulphydryl contents, gel filtration and gel electrophoresis profiles of proteins were recorded. The response to 2 mM diamide treatment for 1 h consists of rapid oxidation (up to 40%) of protein-bound sulphydryl groups accompanied by appearance of polypeptides with apparent molecular weights in excess of 68,000. A protein with a molecular weight of 29 kDa was shown to be specially involved in cross-linking. The linkages in the dialyzed water-soluble lens protein fraction induced by diamide may be reduced by GSH (10 mM) treatment of the protein extract. The main target of oxidative insult induced by diamide in the water-soluble proteins of the lens is probably the superficially localized sulphydryl groups of crystallins. Our observations suggest that this oxidative system of proteins may be a useful tool for cataract research.

Topics: Aging; Animals; Cataract; Cross-Linking Reagents; Crystallins; Diamide; In Vitro Techniques; Models, Biological; Molecular Weight; Oxidation-Reduction; Rabbits; Solubility; Sulfhydryl Compounds; Water

The study has examined the effects of the SH-oxidizing agent diamide (Diazane dicarboxylic acid bis-(N,N-dimethyl-amide)) on the water-soluble portion of proteins from rabbit lenses. The dialyzed protein extracts were incubated for 1-1.5 hrs with various concentrations of diamide. Treatments were monitored for alterations in sulphydryl contents, gel filtration and gel electrophoresis profiles of proteins. The response to 2 mM diamide treatment for 1 hr consists of rapid oxidation (up to 40%) of protein-bound sulphydryl groups accompanied by an appearance of polypeptides with apparent molecular weights. The protein with molecular weight of 29 kilodaltons was shown to be involved in cross-linking. The linkages in the dialyzed water-soluble lens polypeptide fraction induced by diamide may be reduced by GSH (10 mM) treatment of protein extract. The main target of oxidative insult induced by diamide in the water-soluble proteins of the lens is probably the superficially localized sulphydryl groups of crystallins. Our observations suggest that the described oxidative system of proteins may be a useful tool for cataract research.

Topics: Animals; Cataract; Chromatography, Gel; Crystallins; Diamide; Electrophoresis, Polyacrylamide Gel; Oxidation-Reduction; Rabbits; Research

Topics: Animals; Cataract; Cations, Monovalent; Diamide; Egtazic Acid; In Vitro Techniques; Lens, Crystalline; Male; Nigericin; Ouabain; Potassium; Rats; Rats, Inbred Strains; Sodium