Oxidative Stress Induction Is a Rational Strategy to Enhance the Productivity of Fermentations for the Antioxidant Secondary Metabolite Antrodin C.

Reference
Hu P-F, Huang J, Chen L, Ding Z, Liu L, Molnár I, Zhang B-B. 2020. Oxidative Stress Induction Is a Rational Strategy to Enhance the Productivity of Fermentations for the Antioxidant Secondary Metabolite Antrodin C. J Agric Food Chem. 68:3995–4004. doi:10.1021/acs.jafc.9b07965.
Abstract

Antioxidant metabolites contribute to alleviating oxidative stress caused by reactive oxygen species (ROS) in microorganisms. We utilized oxidative stressors such as hydrogen peroxide supplementation to increase the yield of the bioactive secondary metabolite antioxidant antrodin C in submerged fermentations of the medicinal mushroom . Changes in the superoxide dismutase and catalase activities of the cells indicate that ROS are critical to promote antrodin C biosynthesis, while the ROS production inhibitor diphenyleneiodonium cancels the productivity-enhancing effects of HO. Transcriptomic analysis suggests that key enzymes in the mitochondrial electron transport chain are repressed during oxidative stress, leading to ROS accumulation and triggering the biosynthesis of antioxidants such as antrodin C. Accordingly, rotenone, an inhibitor of the electron transport chain complex I, mimics the antrodin C productivity-enhancing effects of HO. Delineating the steps connecting oxidative stress with increased antrodin C biosynthesis will facilitate the fine-tuning of strategies for rational fermentation process improvement.