Comparative kinetic analysis of ascorbate (Vitamin-C) recycling dehydroascorbate reductases from plant and human

Abstract

AbstractAscorbate, a primary antioxidant, gets readily oxidized to dehydroascorbate (DHA). Hence, recycling by dehydroascorbate reductase (DHAR) enzymes is vital for protection from cellular oxidative stress in eukaryotes. However, a detailed kinetic analysis of plant DHARs and their human orthologs; chloride intracellular channels (HsCLICs) is lacking. We demonstrate that DHAR from stress adapted pearl millet Pennisetum glaucum (PgDHAR) shows the highest turnover rate whereas HsCLIC1, 3, and 4 reduce DHA, albeit at lower rates. We further show that the catalytic cysteine is susceptible to varying levels of oxidation, supported by crystal structures and mass-spectrometry analysis. The differences in kinetic parameters among plant and human DHA reductases corroborate with the levels of reactive oxygen species H2O2 encountered in their respective intracellular environment. Our findings may have broader implications in crop improvement using pearl millet DHAR, and anti-cancer therapeutics targeting Vitamin-C recycling capability of human CLICs.