The Role of Methylation Modification in Neural Injury and Repair.

The diverse methylation modifications of DNA, histones and RNA have emerged as pivotal regulatory mechanisms of gene expression in multiple biological processes at the epigenetic level. They function by coordinating gene expression through impacting gene transcription, mRNA processing and maturation, protein translation and metabolism. Changes in methylation profiles of nucleic acids and histones have been observed in many different types neural injuries in both the central nervous system and the peripheral nervous system, such as 5-methylcytosine in DNA, N6-methyladenosine in RNA and methylation of lysine residues in various histones. Importantly, altering these modifications plays key roles in regulation of neural injury and repair. In this review, we highlight recent research advances of the methylation-related epigenetic modifications in multiple aspects of neural injury and regeneration, including neural protection, axon regeneration, microenvironment modulation and neural functional recovery. We also discuss the current unsolved problems in the field and propose potential future research directions.