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Epitranscriptomic regulation by m <sup>6</sup> A RNA methylation in brain development and diseases

Anil K. Chokkalla, Suresh L. Mehta, Raghu Vemuganti

2020Journal of Cerebral Blood Flow & Metabolism91 citationsDOIOpen Access PDF

Abstract

Cellular RNAs are pervasively tagged with diverse chemical moieties, collectively called epitranscriptomic modifications. The methylation of adenosine at N 6 position generates N 6 -methyladenosine (m 6 A), which is the most abundant and reversible epitranscriptomic modification in mammals. The m 6 A signaling is mediated by a dedicated set of proteins comprised of writers, erasers, and readers. Contrary to the activation–repression binary view of gene regulation, emerging evidence suggests that the m 6 A methylation controls multiple aspects of mRNA metabolism, such as splicing, export, stability, translation, and degradation, culminating in the fine-tuning of gene expression. Brain shows the highest abundance of m 6 A methylation in the body, which is developmentally altered. Within the brain, m 6 A methylation is biased toward neuronal transcripts and sensitive to neuronal activity. In a healthy brain, m 6 A maintains several developmental and physiological processes such as neurogenesis, axonal growth, synaptic plasticity, circadian rhythm, cognitive function, and stress response. The m 6 A imbalance contributes to the pathogenesis of acute and chronic CNS insults, brain cancer, and neuropsychiatric disorders. This review discussed the molecular mechanisms of m 6 A regulation and its implication in the developmental, physiological, and pathological processes of the brain.

Topics & Concepts

MethylationBiologyN6-MethyladenosineRNA methylationPsychological repressionRegulation of gene expressionDNA methylationAlternative splicingmicroRNAGene expressionNeurogenesisCell biologyEpigeneticsNeuroscienceGeneGeneticsMessenger RNAMethyltransferaseRNA modifications and cancerCancer-related gene regulationCancer-related molecular mechanisms research
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