【 摘 要 】

There are links between high serum urate (hyperuricemia) and many inflammatory diseases, yet the mechanism is obscure. Urate, the product of purine and ATP break down, builds up in plasma because humans lack the enzyme uricase to convert it to allantoin, which is freely excreted. Urate may benefit health by acting as an antioxidant that scavenges reactive oxygen species. However, hyperuricemia is associated with gout, metabolic syndrome and cardiovascular disease. Oxidative stress is also associated with all these inflammatory diseases.During oxidative stress urate is converted to several reactive electrophiles, including urate hydroperoxide. This novel oxidant could contribute to the adverse effects of urate. Urate hydroperoxide is formed when urate is oxidized to a radical that subsequently combines with superoxide. Activated white blood cells called neutrophils, and xanthine oxidase along with myeloperoxidase/lactoperoxidase, can produce urate hydroperoxide. Previous studies characterized the formation of urate hydroperoxide and its oxidation of small biomolecules. In this investigation, I explored oxidation of thiols and the thiol-dependent enzyme glyceraldehyde-3-phosphate dehydrogenase (GAPDH) by urate hydroperoxide. The effectiveness of urate hydroperoxide as a thiol oxidant was compared with taurine chloramine.Ellman’s assay for reduced thiols was used to measure depletion of cysteine residues on GAPDH by urate hydroperoxide and taurine chloramine. GAPDH was exposed to oxidants in a dose-dependent manner, then assayed by measuring its ability to catalyse the production of NADH. Mass spectrometry was used to identify specific modifications of GAPDH.Urate hydroperoxide oxidized exposed thiols on GAPDH and fully inactivated the enzyme at a ratio of about 5:1. Half of its activity was recovered by reduction with DTT. In comparison, taurine chloramine inactivated GAPDH at approximately 10:1 and DTT reduction recovered all activity. Hence, urate hydroperoxide inactivates GAPDH by reversible and irreversible routes. GAPDH increased in molecular mass by 132 Da with exposure to urate hydroperoxide, indicating the formation of a GAPDH-urate adduct. However, I could not identify which residue was modified with a tryptic digest. Formation of urate hydroperoxide during inflammation and its subsequent oxidative reactions may explain some of the adverse effects of hyperuricemia.

【 预 览 】

附件列表

Files	Size	Format	View
Inactivation of a Thiol-Dependent Enzyme by Urate Hydroperoxide	5929KB	PDF	download