生物信息学分析揭示了突触神经条件易感性途径和神经血管紧张素1相互作用组的重叠。

Channels (Austin, Tex.) Pub Date : 2023-12-01 Epub Date: 2023-10-08 DOI:10.1080/19336950.2023.2253102
Simona D Frederiksen, Leigh E Wicki-Stordeur, Leigh Anne Swayne
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引用次数: 3

摘要

许多神经系统疾病都表现出突触损伤,这表明其机制趋同。此外,pannexin 1(PANX1)通道和信号支架与其中几种神经疾病有关,是突触发育和可塑性的新兴调节因子;然而,其突触致病作用相对未被探索。为此,我们探索了全基因组关联研究(GWASs)发现的突触神经发育障碍和神经退行性疾病易感性基因与从小鼠Neuro2a(N2a)细胞中鉴定的神经PANX1相互作用组(483种蛋白质)之间的联系。为了确定共同的易感性基因,我们比较了自闭症谱系障碍、精神分裂症、帕金森病和阿尔茨海默病中突触提示性GWAS候选基因。为了进一步探索突触处的PANX1信号通路,我们使用生物信息学工具来鉴定PANX1相互作用组信号通路和蛋白质-蛋白质相互作用簇。为了阐明可能将PANX1与这四种神经疾病联系起来的突触疾病机制,我们在富含PANX1突触的基因本体和疾病易感性基因集之间进行了额外的交叉分析。最后,为了探索突触PANX1神经条件连接的区域特异性,我们鉴定了突触PANX1相互作用组和GWAS候选基因集转录物的脑区特异性升高。我们的研究结果证实了自闭症谱系障碍和精神分裂症的风险基因有相当大的重叠,并确定了神经发育障碍和神经退行性疾病遗传易感性的潜在共性。我们的发现还精确定位了新的假定PANX1与突触疾病相关途径的联系,如调节膀胱运输和蛋白稳定,值得进一步验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Overlap in synaptic neurological condition susceptibility pathways and the neural pannexin 1 interactome revealed by bioinformatics analyses.

Many neurological conditions exhibit synaptic impairments, suggesting mechanistic convergence. Additionally, the pannexin 1 (PANX1) channel and signaling scaffold is linked to several of these neurological conditions and is an emerging regulator of synaptic development and plasticity; however, its synaptic pathogenic contributions are relatively unexplored. To this end, we explored connections between synaptic neurodevelopmental disorder and neurodegenerative disease susceptibility genes discovered by genome-wide association studies (GWASs), and the neural PANX1 interactome (483 proteins) identified from mouse Neuro2a (N2a) cells. To identify shared susceptibility genes, we compared synaptic suggestive GWAS candidate genes amongst autism spectrum disorders, schizophrenia, Parkinson's disease, and Alzheimer's disease. To further probe PANX1 signaling pathways at the synapse, we used bioinformatics tools to identify PANX1 interactome signaling pathways and protein-protein interaction clusters. To shed light on synaptic disease mechanisms potentially linking PANX1 and these four neurological conditions, we performed additional cross-analyses between gene ontologies enriched for the PANX1 synaptic and disease-susceptibility gene sets. Finally, to explore the regional specificity of synaptic PANX1-neurological condition connections, we identified brain region-specific elevations of synaptic PANX1 interactome and GWAS candidate gene set transcripts. Our results confirm considerable overlap in risk genes for autism spectrum disorders and schizophrenia and identify potential commonalities in genetic susceptibility for neurodevelopmental disorders and neurodegenerative diseases. Our findings also pinpointed novel putative PANX1 links to synaptic disease-associated pathways, such as regulation of vesicular trafficking and proteostasis, warranting further validation.

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