TY - JOUR T1 - Hormetic Shifting of Redox Environment by Pro-Oxidative Resveratrol Protects Cells Against Stress JF - bioRxiv DO - 10.1101/045567 SP - 045567 AU - Annabell Plauth AU - Anne Geikowski AU - Susanne Cichon AU - Silvia J. Wowro AU - Linda Liedgens AU - Morten Rousseau AU - Christopher Weidner AU - Luise Fuhr AU - Magdalena Kliem AU - Gail Jenkins AU - Silvina Lotito AU - Linda J. Wainwright AU - Sascha Sauer Y1 - 2016/01/01 UR - http://biorxiv.org/content/early/2016/03/24/045567.abstract N2 - Resveratrol has gained tremendous interest owing to multiple reported health-beneficial effects. However, the underlying key mechanism of action of resveratrol remained largely controversial. Here, we demonstrate that under physiologically relevant conditions major biological effects of resveratrol can be attributed to the generation of oxidation products such as reactive oxygen species (ROS). At low hormetic concentrations (< 50 μM), treatment with resveratrol increased cell viability in a set of representative cell models, whereas application of quenchers of ROS completely truncated these beneficial effects. Notably, application of resveratrol led to mild, Nrf2-specific cellular gene expression reprogramming. For example, in primary human epidermal keratinocytes this resulted in a 1.3-fold increase of endogenous metabolites such as gluthathione (GSH) and subsequently in a quantitative reduction of the cellular redox environment by 2.61 mV mmol GSH (g protein)-1. In particular in resveratrol pre-treated cells, after external application of oxidative stress by using 0.8 % ethanol, endogenous ROS generation was consequently reduced by 24 %. In contrast to the common perception that resveratrol acts mainly as a chemical antioxidant or as a target protein-specific ligand, we propose that effects from resveratrol treatment are essentially based on oxidative triggering of cells. In relevant physiological microenvironments this effect can lead to hormetic shifting of cellular defence towards a more reductive state to improve resilience to oxidative stress in a manner that can be exactly defined by the redox-environment of the cell. ER -