Epigenetic regulation in Autism spectrum disorder

S. Chaudhury
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Abstract

Abstract Autism spectrum disorder (ASD) is a neurodevelopmental disorder characterized by an impaired social communication skill and often results in repetitive, stereotyped behavior which is observed in children during the first few years of life. Other characteristic of this disorder includes language disabilities, difficulties in sensory integration, lack of reciprocal interactions and in some cases, cognitive delays. One percentage of the general population is affected by ASD and is four times more common in boys than girls. There are hundreds of genes, which has been identified to be associated with ASD etiology. However it remains difficult to comprehend our understanding in defining the genetic architecture necessary for complete exposition of its pathophysiology. Seeing the complexity of the disease, it is important to adopt a multidisciplinary approach which should not only focus on the “genetics” of autism but also on epigenetics, transcriptomics, immune system disruption and environmental factors that could all impact the pathogenesis of the disease. As environmental factors also play a key role in regulating the trigger of ASD, the role of chromatin remodeling and DNA methylation has started to emerge. Such epigenetic modifications directly link molecular regulatory pathways and environmental factors, which might be able to explain some aspects of complex disorders like ASD. The present review will focus on the role of epigenetic regulation in defining the underlying cause for ASD.
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自闭症谱系障碍的表观遗传调控
自闭症谱系障碍(ASD)是一种以社会沟通能力受损为特征的神经发育障碍,通常会导致儿童在生命的最初几年出现重复的、刻板的行为。这种疾病的其他特征包括语言障碍、感觉整合困难、缺乏相互作用,在某些情况下,还包括认知迟缓。总人口中有1%的人受到自闭症谱系障碍的影响,男孩的发病率是女孩的四倍。有数百个基因已被确定与ASD病因相关。然而,它仍然很难理解我们的理解在定义必要的遗传结构,以完整的病理生理学的阐述。鉴于这种疾病的复杂性,采用多学科方法是很重要的,不仅要关注自闭症的“遗传学”,还要关注表观遗传学、转录组学、免疫系统破坏和环境因素,这些都可能影响疾病的发病机制。由于环境因素在调节ASD的触发中也起着关键作用,染色质重塑和DNA甲基化的作用已经开始显现。这种表观遗传修饰直接将分子调控途径和环境因素联系起来,这可能能够解释ASD等复杂疾病的某些方面。目前的综述将集中在表观遗传调控在定义ASD的潜在原因中的作用。
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来源期刊
AIMS Genetics
AIMS Genetics GENETICS & HEREDITY-
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审稿时长
12 weeks
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