Parkinson's disease and schizophrenia interactomes contain temporally distinct gene clusters underlying comorbid mechanisms and unique disease processes.

IF 3 Q2 PSYCHIATRY
Kalyani B Karunakaran, Sanjeev Jain, Samir K Brahmachari, N Balakrishnan, Madhavi K Ganapathiraju
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Abstract

Genome-wide association studies suggest significant overlaps in Parkinson's disease (PD) and schizophrenia (SZ) risks, but the underlying mechanisms remain elusive. The protein-protein interaction network ('interactome') plays a crucial role in PD and SZ and can incorporate their spatiotemporal specificities. Therefore, to study the linked biology of PD and SZ, we compiled PD- and SZ-associated genes from the DisGeNET database, and constructed their interactomes using BioGRID and HPRD. We examined the interactomes using clustering and enrichment analyses, in conjunction with the transcriptomic data of 26 brain regions spanning foetal stages to adulthood available in the BrainSpan Atlas. PD and SZ interactomes formed four gene clusters with distinct temporal identities (Disease Gene Networks or 'DGNs'1-4). DGN1 had unique SZ interactome genes highly expressed across developmental stages, corresponding to a neurodevelopmental SZ subtype. DGN2, containing unique SZ interactome genes expressed from early infancy to adulthood, correlated with an inflammation-driven SZ subtype and adult SZ risk. DGN3 contained unique PD interactome genes expressed in late infancy, early and late childhood, and adulthood, and involved in mitochondrial pathways. DGN4, containing prenatally-expressed genes common to both the interactomes, involved in stem cell pluripotency and overlapping with the interactome of 22q11 deletion syndrome (comorbid psychosis and Parkinsonism), potentially regulates neurodevelopmental mechanisms in PD-SZ comorbidity. Our findings suggest that disrupted neurodevelopment (regulated by DGN4) could expose risk windows in PD and SZ, later elevating disease risk through inflammation (DGN2). Alternatively, variant clustering in DGNs may produce disease subtypes, e.g., PD-SZ comorbidity with DGN4, and early/late-onset SZ with DGN1/DGN2.

Abstract Image

帕金森病和精神分裂症的交互基因组包含时间上截然不同的基因簇,这些基因簇是合并症机制和独特疾病过程的基础。
全基因组关联研究表明,帕金森病(PD)和精神分裂症(SZ)的发病风险存在明显的重叠,但其潜在机制仍然难以捉摸。蛋白质-蛋白质相互作用网络("相互作用组")在帕金森病和精神分裂症中起着至关重要的作用,并能结合它们的时空特异性。因此,为了研究 PD 和 SZ 的关联生物学,我们从 DisGeNET 数据库中汇编了 PD 和 SZ 相关基因,并使用 BioGRID 和 HPRD 构建了它们的相互作用组。我们利用聚类分析和富集分析,结合 BrainSpan Atlas 提供的从胎儿期到成年期的 26 个脑区的转录组数据,对相互作用组进行了研究。PD和SZ相互作用组形成了四个具有不同时间特征的基因簇(疾病基因网络或 "DGNs "1-4)。DGN1 具有独特的 SZ 相互作用组基因,这些基因在各个发育阶段都高度表达,与神经发育性 SZ 亚型相对应。DGN2包含从婴儿期到成年期表达的独特的SZ相互作用基因组,与炎症驱动的SZ亚型和成年SZ风险相关。DGN3 包含在婴儿晚期、儿童早期和晚期以及成年期表达的独特的帕金森病交互组基因,涉及线粒体通路。DGN4包含两个相互作用组共同的产前表达基因,涉及干细胞多能性,并与22q11缺失综合征(合并精神病和帕金森病)的相互作用组重叠,可能调节PD-SZ合并症的神经发育机制。我们的研究结果表明,神经发育紊乱(受 DGN4 的调控)可能会暴露出帕金森病和 SZ 的风险窗口,随后通过炎症(DGN2)升高疾病风险。另外,DGNs中的变异集群可能会产生疾病亚型,例如,PD-SZ合并症与DGN4,早发/迟发SZ与DGN1/DGN2。
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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