Davis J M, Searles Quick V B, Sikela J M
Department of Biochemistry and Molecular Genetics and Human Medical Genetics and Genomics, Medical Scientist Training and Neuroscience Programs, University of Colorado School of Medicine, Anschutz Medical Campus, Aurora, CO, 80045, USA.
Hum Genet. 2015 Jun;134(6):569-75. doi: 10.1007/s00439-015-1537-6. Epub 2015 Mar 11.
Sequences encoding DUF1220 protein domains exhibit an exceptional human-specific increase in copy number and have been associated with several phenotypes related to brain size. Autism is a highly heritable and heterogeneous condition characterized behaviorally by social and communicative impairments, and increased repetitive and stereotyped behavior. Given the accelerated brain growth pattern observed in many individuals with autism, and the association between DUF1220 subtype CON1 copy number and brain size, we previously investigated associations between CON1 copy number and autism-related symptoms. We determined that CON1 copy number increase is associated with increasing severity of all three behavioral features of autism. The present study sought to replicate these findings in an independent population (N = 166). Our results demonstrate a replication of the linear relationship between CON1 copy number and the severity of social impairment in individuals with autism as measured by Autism Diagnostic Interview-Revised Social Diagnostic Score, such that with each additional copy of CON1 Social Diagnostic Score increased 0.24 points (SE = 0.11, p = 0.036). We also identified an analogous trend between CON1 copy number and Communicative Diagnostic Score, but did not replicate the relationship between CON1 copy number and Repetitive Behavior Diagnostic Score. Interestingly, these associations appear to be most pronounced in multiplex children. These results, representing the first replication of a gene dosage relationship with the severity of a primary symptom of autism, lend further support to the possibility that the same protein domain family implicated in the evolutionary expansion of the human brain may also be involved in autism severity.
编码DUF1220蛋白结构域的序列在拷贝数上呈现出异常的人类特异性增加,并且与几种与脑容量相关的表型有关。自闭症是一种高度可遗传且异质性的疾病,其行为特征为社交和沟通障碍,以及重复和刻板行为增加。鉴于在许多自闭症个体中观察到脑生长加速模式,以及DUF1220亚型CON1拷贝数与脑容量之间的关联,我们之前研究了CON1拷贝数与自闭症相关症状之间的关联。我们确定CON1拷贝数增加与自闭症所有三种行为特征的严重程度增加有关。本研究旨在在一个独立人群(N = 166)中重复这些发现。我们的结果表明,通过《自闭症诊断访谈修订版社会诊断评分》测量,CON1拷贝数与自闭症个体社交障碍严重程度之间的线性关系得到了重复,即CON1每增加一个拷贝,社会诊断评分增加0.24分(标准误 = 0.11,p = 0.036)。我们还在CON1拷贝数与沟通诊断评分之间发现了类似趋势,但未重复CON1拷贝数与重复行为诊断评分之间的关系。有趣的是,这些关联在多发型儿童中似乎最为明显。这些结果代表了基因剂量关系与自闭症主要症状严重程度之间的首次重复,进一步支持了这样一种可能性,即与人类大脑进化扩张相关的同一蛋白结构域家族可能也与自闭症严重程度有关。