Literature DB >> 31673123

Mutations in ASH1L confer susceptibility to Tourette syndrome.

Shiguo Liu1,2, Miaomiao Tian3,4, Fan He5, Jiani Li6, Hong Xie4,7, Wenmiao Liu1,2, Yeting Zhang8, Ru Zhang1,2, Mingji Yi9, Fengyuan Che10, Xu Ma11, Yi Zheng5, Hao Deng12, Guiju Wang13, Lang Chen14, Xue Sun15, Yinglei Xu1,2, Jingli Wang1,2, Yucui Zang1,2, Mengmeng Han1,2, Xiuhai Wang16, Hongzai Guan17, Yinlin Ge18, Chunmei Wu17, Haiyan Wang19, Hui Liang20, Hui Li21, Ni Ran9, Zhaochuan Yang9, Huanhuan Huang5, Yanzhao Wei5, Xueping Zheng22, Xiangrong Sun1,2, Xueying Feng9, Lanlan Zheng23, Tao Zhu3,24, Wenhan Luo3,4, Qinan Chen4, Yuze Yan3,4, Zuzhou Huang19, Zhongcui Jing19, Yixia Guo9, Xuzhan Zhang21, Christian P Schaaf25, Jinchuan Xing8, Chuanyue Wang26, Fuli Yu27, Ji-Song Guan28,29.   

Abstract

Tourette syndrome (TS) is a childhood-onset neuropsychiatric disorder characterized by repetitive motor movements and vocal tics. The clinical manifestations of TS are complex and often overlap with other neuropsychiatric disorders. TS is highly heritable; however, the underlying genetic basis and molecular and neuronal mechanisms of TS remain largely unknown. We performed whole-exome sequencing of a hundred trios (probands and their parents) with detailed records of their clinical presentations and identified a risk gene, ASH1L, that was both de novo mutated and associated with TS based on a transmission disequilibrium test. As a replication, we performed follow-up targeted sequencing of ASH1L in additional 524 unrelated TS samples and replicated the association (P value = 0.001). The point mutations in ASH1L cause defects in its enzymatic activity. Therefore, we established a transgenic mouse line and performed an array of anatomical, behavioral, and functional assays to investigate ASH1L function. The Ash1l+/- mice manifested tic-like behaviors and compulsive behaviors that could be rescued by the tic-relieving drug haloperidol. We also found that Ash1l disruption leads to hyper-activation and elevated dopamine-releasing events in the dorsal striatum, all of which could explain the neural mechanisms for the behavioral abnormalities in mice. Taken together, our results provide compelling evidence that ASH1L is a TS risk gene.

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Year:  2019        PMID: 31673123     DOI: 10.1038/s41380-019-0560-8

Source DB:  PubMed          Journal:  Mol Psychiatry        ISSN: 1359-4184            Impact factor:   15.992


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