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Future Prospects for Epigenetics in Autism Spectrum Disorder

Logan A. Williams, Janine M. LaSalle

2022Molecular Diagnosis & Therapy32 citationsDOIOpen Access PDF

Abstract

Despite decades of investigation into the genetics of autism spectrum disorder (ASD), a current consensus in the field persists that ASD risk is too heterogeneous to be diagnosed by a single set of genetic variants. As such, ASD research has broadened to include assessment of other molecular biomarkers implicated in the condition that may be reflective of environmental exposures or gene by environment interactions. Epigenetic variance, and specifically differential DNA methylation, have emerged as areas of particularly high interest to ASD, as the epigenetic markers from specific chromatin loci collectively can reflect influences of multiple genetic and environmental factors and can also result in differential gene expression patterns. This review examines recent studies of the ASD epigenome, detailing common gene pathways found to be differentially methylated in people with ASD, and considers how these discoveries may inform our understanding of ASD etiology. We also consider future applications of epigenetics in ASD research and clinical practice, focusing on substratification, biomarker development, and experimental preclinical models of ASD that test causality. In combination with other -omics approaches, epigenomics allows an improved conceptualization of the multifactorial nature of ASD, and opens future lines of inquiry for both basic research and clinical practice.

Topics & Concepts

EpigeneticsEpigenomeAutism spectrum disorderDNA methylationAutismHuman geneticsEpigenomicsBiomarkerBiologyGeneticsComputational biologyBioinformaticsPsychologyGeneDevelopmental psychologyGene expressionAutism Spectrum Disorder ResearchGenetics and Neurodevelopmental DisordersChild Development and Digital Technology