The Centre for Applied Genomics and Program in Genetics and Genome Biology, The Hospital for Sick Children , Toronto, ON , Canada.
Clinical Genetics Research Program, Centre for Addiction and Mental Health , Toronto, ON , Canada.
Front Neurol. 2014 Nov 21;5:238. doi: 10.3389/fneur.2014.00238. eCollection 2014.
The role of microRNAs (miRNAs) in the etiology of schizophrenia is increasingly recognized. Microdeletions at chromosome 22q11.2 are recurrent structural variants that impart a high risk for schizophrenia and are found in up to 1% of all patients with schizophrenia. The 22q11.2 deletion region overlaps gene DGCR8, encoding a subunit of the miRNA microprocessor complex. We identified miRNAs overlapped by the 22q11.2 microdeletion and for the first time investigated their predicted target genes, and those implicated by DGCR8, to identify targets that may be involved in the risk for schizophrenia. The 22q11.2 region encompasses seven validated or putative miRNA genes. Employing two standard prediction tools, we generated sets of predicted target genes. Functional enrichment profiles of the 22q11.2 region miRNA target genes suggested a role in neuronal processes and broader developmental pathways. We then constructed a protein interaction network of schizophrenia candidate genes and interaction partners relevant to brain function, independent of the 22q11.2 region miRNA mechanisms. We found that the predicted gene targets of the 22q11.2 deletion miRNAs, and targets of the genome-wide miRNAs predicted to be dysregulated by DGCR8 hemizygosity, were significantly represented in this schizophrenia network. The findings provide new insights into the pathway from 22q11.2 deletion to expression of schizophrenia, and suggest that hemizygosity of the 22q11.2 region may have downstream effects implicating genes elsewhere in the genome that are relevant to the general schizophrenia population. These data also provide further support for the notion that robust genetic findings in schizophrenia may converge on a reasonable number of final pathways.
越来越多的研究表明 microRNAs(miRNAs)在精神分裂症的发病机制中发挥着重要作用。22q11.2 染色体微缺失是一种常见的结构变异,可显著增加精神分裂症的发病风险,其在所有精神分裂症患者中的发生率高达 1%。22q11.2 缺失区域与 DGCR8 基因重叠,后者编码 miRNA 微处理器复合物的一个亚基。我们鉴定了受 22q11.2 微缺失影响的 miRNAs,并首次研究了它们的预测靶基因以及与 DGCR8 相关的靶基因,以确定可能与精神分裂症发病风险相关的靶基因。22q11.2 区域包含七个经过验证或推测的 miRNA 基因。我们采用两种标准预测工具,生成了一组预测的靶基因。22q11.2 区域 miRNA 靶基因的功能富集图谱提示其在神经元过程和更广泛的发育途径中发挥作用。然后,我们构建了一个包含精神分裂症候选基因和与大脑功能相关的相互作用伙伴的蛋白质相互作用网络,该网络与 22q11.2 区域 miRNA 机制无关。我们发现,22q11.2 缺失 miRNA 的预测靶基因,以及 DGCR8 杂合缺失导致的全基因组 miRNA 预测靶基因,在该精神分裂症网络中显著富集。这些发现为 22q11.2 缺失导致精神分裂症表达的途径提供了新的见解,并表明 22q11.2 区域的杂合缺失可能会对基因组其他区域的相关基因产生下游影响,这些基因与一般精神分裂症人群有关。这些数据还进一步支持了这样一种观点,即精神分裂症中强有力的遗传发现可能会汇聚到少数几个最终的途径上。
