Genetic overlap between schizophrenia and cognitive performance.

IF 3 Q2 PSYCHIATRY
Jianfei Zhang, Hao Qiu, Qiyu Zhao, Chongjian Liao, Yuxuan Guoli, Qi Luo, Guoshu Zhao, Nannan Zhang, Shaoying Wang, Zhihui Zhang, Minghuan Lei, Feng Liu, Yanmin Peng
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Abstract

Schizophrenia (SCZ), a highly heritable mental disorder, is characterized by cognitive impairment, yet the extent of the shared genetic basis between schizophrenia and cognitive performance (CP) remains poorly understood. Therefore, we aimed to explore the polygenic overlap between SCZ and CP. Specifically, the bivariate causal mixture model (MiXeR) was employed to estimate the extent of genetic overlap between SCZ (n = 130,644) and CP (n = 257,841), and conjunctional false discovery rate (conjFDR) approach was used to identify shared genetic loci. Subsequently, functional annotation and enrichment analysis were carried out on the identified genomic loci. The MiXeR analyses revealed that 9.6 K genetic variants are associated with SCZ and 10.9 K genetic variants for CP, of which 9.5 K variants are shared between these two traits (Dice coefficient = 92.8%). By employing conjFDR, 236 loci were identified jointly associated with SCZ and CP, of which 139 were novel for the two traits. Within these shared loci, 60 exhibited consistent effect directions, while 176 had opposite effect directions. Functional annotation analysis indicated that the shared genetic loci were mainly located in intronic and intergenic regions, and were found to be involved in relevant biological processes such as nervous system development, multicellular organism development, and generation of neurons. Together, our findings provide insights into the shared genetic architecture between SCZ and CP, suggesting common pathways and mechanisms contributing to both traits.

Abstract Image

精神分裂症与认知能力之间的基因重叠。
精神分裂症(SCZ)是一种高度遗传性精神疾病,以认知障碍为特征,但人们对精神分裂症与认知表现(CP)之间的共同遗传基础的程度仍然知之甚少。因此,我们旨在探索 SCZ 和 CP 之间的多基因重叠。具体来说,我们采用了双变量因果混合模型(MiXeR)来估计SCZ(n = 130,644)和CP(n = 257,841)之间的遗传重叠程度,并采用联合误发现率(conjunctional false discovery rate,conjFDR)方法来识别共有遗传位点。随后,对确定的基因组位点进行了功能注释和富集分析。MiXeR分析显示,960万个基因变异与SCZ相关,1090万个基因变异与CP相关,其中950万个变异在这两个性状之间共享(骰子系数=92.8%)。通过使用 conjFDR,确定了 236 个与 SCZ 和 CP 共同相关的基因位点,其中 139 个是这两个性状的新基因位点。在这些共有位点中,60个位点的效应方向一致,176个位点的效应方向相反。功能注释分析表明,共享基因位点主要位于内含子区和基因间区,参与了神经系统发育、多细胞生物体发育和神经元生成等相关生物学过程。总之,我们的研究结果揭示了SCZ和CP的共同遗传结构,提示了导致这两种性状的共同途径和机制。
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