Exercise-induced redox modulation as a mediator of DNA methylation in health maintenance and disease prevention.

The evidence for physical activity (PA) as a major public health preventive approach and a potent medical therapy has increased exponentially in the last decades. The biomolecular mechanisms supporting the associations between PA and/or structured exercise training with health maintenance and disease prevention are not completely characterized. However, increasing evidence pointed out the role of epigenetic modifications in exercise adaptation and health-enhancing PA throughout life, DNA methylation being the most intensely studied epigenetic modification induced by acute and chronic exercise. The current data on the modulation of DNA methylation determined by physically active behavior or exercise interventions points out genes related to energy regulation, mitochondrial function, and biosynthesis, as well as muscle regeneration, calcium signaling pathways, and brain plasticity, all consistent with the known exercise-induced redox signaling and/or reactive oxygen species (ROS) unbalance. Thus, the main focus of this review is to discuss the role of ROS and redox-signaling on DNA methylation profile and its impact on exercise-induced health benefits in humans. [Display omitted] • Exercise modifies DNA methylation, influencing various biological processes in different tissues. • Exercise-induced DNA methylation prevents numerous non-communicable diseases and promotes health across age group. • Exercise-triggered ROS unbalance and redox signaling regulate DNA methylation during physical activity. [ABSTRACT FROM AUTHOR]