Physical Exercise Prevented Stress-Induced Anxiety via Improving Brain RNA Methylation.
Lan YanJi-An WeiFengzhen YangMei WangSiqi WangTong ChengXuanjun LiuYanbin JiaKwok-Fai SoLi ZhangPublished in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2022)
Physical exercise is effective in alleviating mental disorders by improving synaptic transmission; however, the link between body endurance training and neural adaptation has not yet been completely resolved. In this study, the authors investigated the role of RNA N 6 -methyladenosine (m6A), an emerging epigenetic mechanism, in improved resilience against chronic restraint stress. A combination of molecular, behavioral, and in vivo recording data demonstrates exercise-mediated restoration of m6A in the mouse medial prefrontal cortex, whose activity is potentiated to exert anxiolytic effects. Furthermore, it is revealed that hepatic biosynthesis of one methyl donor is necessary for exercise to improve brain RNA m6A to counteract environmental stress. This novel liver-brain axis provides an explanation for brain network changes upon exercise training and provides new insights into the diagnosis and treatment of anxiety disorders.
Keyphrases
- stress induced
- resting state
- white matter
- prefrontal cortex
- high intensity
- functional connectivity
- dna methylation
- skeletal muscle
- cerebral ischemia
- resistance training
- physical activity
- gene expression
- climate change
- machine learning
- body composition
- genome wide
- heat stress
- depressive symptoms
- risk assessment
- big data
- brain injury
- social support