Caballero Madison, Satterstrom F Kyle, Buxbaum Joseph D, Mahjani Behrang
Seaver Autism Center for Research and Treatment, Icahn School of Medicine at Mount Sinai, New York, NY, USA.
Program in Medical and Population Genetics, Broad Institute of MIT and Harvard, Cambridge, MA, USA.
medRxiv. 2024 Apr 4:2024.04.03.24305278. doi: 10.1101/2024.04.03.24305278.
Autism Spectrum Disorder (ASD) arises from complex genetic and environmental factors, with inherited genetic variation playing a substantial role. This study introduces a novel approach to uncover moderate effect size (MES) genes in ASD, which individually do not meet the ASD liability threshold but collectively contribute when paired with specific other MES genes. Analyzing 10,795 families from the SPARK dataset, we identified 97 MES genes forming 50 significant gene pairs, demonstrating a substantial association with ASD when considered in tandem, but not individually. Our method leverages familial inheritance patterns and statistical analyses, refined by comparisons against control cohorts, to elucidate these gene pairs' contribution to ASD liability. Furthermore, expression profile analyses of these genes in brain tissues underscore their relevance to ASD pathology. This study underscores the complexity of ASD's genetic landscape, suggesting that gene combinations, beyond high impact single-gene mutations, significantly contribute to the disorder's etiology and heterogeneity. Our findings pave the way for new avenues in understanding ASD's genetic underpinnings and developing targeted therapeutic strategies.
自闭症谱系障碍(ASD)由复杂的遗传和环境因素引起,遗传变异在其中起着重要作用。本研究引入了一种新方法来发现ASD中效应量中等(MES)的基因,这些基因单独来看未达到ASD致病阈值,但与特定的其他MES基因配对时会共同产生影响。通过分析来自SPARK数据集的10795个家庭,我们鉴定出97个MES基因,它们形成了50个显著的基因对,这些基因对串联起来时与ASD有显著关联,但单独来看则不然。我们的方法利用家族遗传模式和统计分析,并通过与对照队列进行比较加以完善,以阐明这些基因对ASD易感性的贡献。此外,这些基因在脑组织中的表达谱分析突出了它们与ASD病理学的相关性。本研究强调了ASD遗传格局的复杂性,表明除了高影响力的单基因突变外,基因组合对该疾病的病因和异质性也有显著贡献。我们的发现为理解ASD的遗传基础和制定靶向治疗策略开辟了新途径。
