Quantitative data on the contribution of GSH and Complex II dependent ascorbate recycling in plant mitochondria

The reduction of dehydroascorbate, the oxidized form of ascorbate plays important role in the maintenance of sufficient level of ascorbate. In plant mitochondria two DHA reducing mechanisms, the GSH-dependent and the mitochondrial electron transfer chain dependent ascorbate recycling have been characterized. Although both pathways have been extensively studied quantitative information about the electron fluxes from one or another direction for the reduction of DHA is not known. The cellular, mitochondrial glutathione pools and mitochondrial DHA reducing capacity was measured in BSO treated and control tobacco cells. While BSO caused dramatic decrease of cellular GSH content the difference was much smoother at mitochondrial level. The difference in DHA reduction capacity was even smoother affirming the existence of alternative, non-GSH dependent DHA reducing mechanism(s) in plant mitochondria. On the base of the parallel determination of mitochondrial GSH content and ascorbate production upon DHA addition, GSH (consumption) is responsible for the ~ 20 % of ascorbate production. Almost 90 % enhancement of ascorbate production could be provoked by the addition of Complex II substrate succinate which could be almost totally prevented by the concomitant addition of malonate or TTFA. On the base of these results, the importance of mitochondrial Complex II compared to GSH-dependent mechanisms in mitochondrial ascorbate recycling has been underestimated so far.