{"title":"TTLL11基因与持续注意力表现和大脑网络相关:一项健康中国人样本的全基因组关联研究","authors":"Hejun Liu, Xiaoyu Zhao, Gui Xue, Chuansheng Chen, Qi Dong, Xuping Gao, Li Yang, Chunhui Chen","doi":"10.1111/gbb.12835","DOIUrl":null,"url":null,"abstract":"<p>Genetic studies on attention have mainly focused on children with attention-deficit/hyperactivity disorder (ADHD), so little systematic research has been conducted on genetic correlates of attention performance and their potential brain mechanisms among healthy individuals. The current study included a genome-wide association study (GWAS, <i>N</i> = 1145 healthy young adults) aimed to identify genes associated with sustained attention and an imaging genetics study (an independent sample of 483 healthy young adults) to examine any identified genes' influences on brain function. The GWAS found that <i>TTLL11</i> showed genome-wide significant associations with sustained attention, with rs13298112 as the most significant SNP and the GG homozygotes showing more impulsive but also more focused responses than the A allele carriers. A retrospective examination of previously published ADHD GWAS results confirmed an un-reported, small but statistically significant effect of <i>TTLL11</i> on ADHD. The imaging genetics study replicated this association and showed that the <i>TTLL11</i> gene was associated with resting state activity and connectivity of the somatomoter network, and can be predicted by dorsal attention network connectivity. Specifically, the GG homozygotes showed lower brain activity, weaker brain network connectivity, and non-significant brain-attention association compared to the A allele carriers. Expression database showed that expression of this gene is enriched in the brain and that the G allele is associated with lower expression level than the A allele. These results suggest that <i>TTLL11</i> may play a major role in healthy individuals' attention performance and may also contribute to the etiology of ADHD.</p>","PeriodicalId":50426,"journal":{"name":"Genes Brain and Behavior","volume":"22 1","pages":""},"PeriodicalIF":2.4000,"publicationDate":"2022-12-13","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://ftp.ncbi.nlm.nih.gov/pub/pmc/oa_pdf/3d/2d/GBB-22-e12835.PMC9994169.pdf","citationCount":"0","resultStr":"{\"title\":\"TTLL11 gene is associated with sustained attention performance and brain networks: A genome-wide association study of a healthy Chinese sample\",\"authors\":\"Hejun Liu, Xiaoyu Zhao, Gui Xue, Chuansheng Chen, Qi Dong, Xuping Gao, Li Yang, Chunhui Chen\",\"doi\":\"10.1111/gbb.12835\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Genetic studies on attention have mainly focused on children with attention-deficit/hyperactivity disorder (ADHD), so little systematic research has been conducted on genetic correlates of attention performance and their potential brain mechanisms among healthy individuals. 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Specifically, the GG homozygotes showed lower brain activity, weaker brain network connectivity, and non-significant brain-attention association compared to the A allele carriers. Expression database showed that expression of this gene is enriched in the brain and that the G allele is associated with lower expression level than the A allele. 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引用次数: 0
摘要
注意力的遗传研究主要集中在注意缺陷/多动障碍(ADHD)儿童身上,因此对健康个体注意力表现的遗传相关性及其潜在的大脑机制的系统研究很少。目前的研究包括一项全基因组关联研究(GWAS, N = 1145名健康年轻人),旨在确定与持续注意力相关的基因,以及一项成像遗传学研究(483名健康年轻人的独立样本),以检查任何已确定的基因对脑功能的影响。GWAS发现TTLL11在全基因组范围内与持续注意力存在显著关联,rs13298112是最显著的SNP, GG纯合子比A等位基因携带者表现出更冲动但也更集中的反应。对先前发表的ADHD GWAS结果的回顾性检查证实了TTLL11对ADHD的一个未报道的、小但具有统计学意义的作用。成像遗传学研究复制了这种关联,并表明TTLL11基因与静息状态活动和体运动网络的连通性有关,并且可以通过背侧注意网络连通性来预测。具体而言,与A等位基因携带者相比,GG纯合子表现出较低的大脑活动,较弱的大脑网络连通性和不显著的大脑注意力关联。表达数据库显示,该基因在大脑中表达丰富,且G等位基因的表达水平低于A等位基因。这些结果表明,TTLL11可能在健康个体的注意力表现中发挥重要作用,也可能与ADHD的病因有关。
TTLL11 gene is associated with sustained attention performance and brain networks: A genome-wide association study of a healthy Chinese sample
Genetic studies on attention have mainly focused on children with attention-deficit/hyperactivity disorder (ADHD), so little systematic research has been conducted on genetic correlates of attention performance and their potential brain mechanisms among healthy individuals. The current study included a genome-wide association study (GWAS, N = 1145 healthy young adults) aimed to identify genes associated with sustained attention and an imaging genetics study (an independent sample of 483 healthy young adults) to examine any identified genes' influences on brain function. The GWAS found that TTLL11 showed genome-wide significant associations with sustained attention, with rs13298112 as the most significant SNP and the GG homozygotes showing more impulsive but also more focused responses than the A allele carriers. A retrospective examination of previously published ADHD GWAS results confirmed an un-reported, small but statistically significant effect of TTLL11 on ADHD. The imaging genetics study replicated this association and showed that the TTLL11 gene was associated with resting state activity and connectivity of the somatomoter network, and can be predicted by dorsal attention network connectivity. Specifically, the GG homozygotes showed lower brain activity, weaker brain network connectivity, and non-significant brain-attention association compared to the A allele carriers. Expression database showed that expression of this gene is enriched in the brain and that the G allele is associated with lower expression level than the A allele. These results suggest that TTLL11 may play a major role in healthy individuals' attention performance and may also contribute to the etiology of ADHD.
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