Faculty of Basic Sciences and Advanced Medical Technologies, Royan Institute for Stem Cell Biology and Technology, ACECR, Tehran 1665659911, Iran.
Department of Brain and Cognitive Sciences, Cell Science Research Center, Royan Institute for Stem Cell Biology and Technology, ACECR, Tehran 1665659911, Iran.
Cells. 2022 Mar 14;11(6):987. doi: 10.3390/cells11060987.
Alzheimer's disease (AD) is one of the most complicated progressive neurodegenerative brain disorders, affecting millions of people around the world. Ageing remains one of the strongest risk factors associated with the disease and the increasing trend of the ageing population globally has significantly increased the pressure on healthcare systems worldwide. The pathogenesis of AD is being extensively investigated, yet several unknown key components remain. Therefore, we aimed to extract new knowledge from existing data. Ten gene expression datasets from different brain regions including the hippocampus, cerebellum, entorhinal, frontal and temporal cortices of 820 AD cases and 626 healthy controls were analyzed using the robust rank aggregation (RRA) method. Our results returned 1713 robust differentially expressed genes (DEGs) between five brain regions of AD cases and healthy controls. Subsequent analysis revealed pathways that were altered in each brain region, of which the GABAergic synapse pathway and the retrograde endocannabinoid signaling pathway were shared between all AD affected brain regions except the cerebellum, which is relatively less sensitive to the effects of AD. Furthermore, we obtained common robust DEGs between these two pathways and predicted three miRNAs as potential candidates targeting these genes; hsa-mir-17-5p, hsa-mir-106a-5p and hsa-mir-373-3p. Three transcription factors (TFs) were also identified as the potential upstream regulators of the robust DEGs; ELK-1, GATA1 and GATA2. Our results provide the foundation for further research investigating the role of these pathways in AD pathogenesis, and potential application of these miRNAs and TFs as therapeutic and diagnostic targets.
阿尔茨海默病(AD)是一种最复杂的进行性神经退行性脑疾病,影响着全球数百万人。年龄仍然是与该疾病相关的最强风险因素之一,全球人口老龄化的趋势显著增加了全球医疗保健系统的压力。AD 的发病机制正在广泛研究中,但仍有几个未知的关键因素。因此,我们旨在从现有数据中提取新知识。使用稳健秩聚合(RRA)方法分析了来自不同大脑区域(包括海马体、小脑、内嗅皮层、额叶和颞叶)的 820 例 AD 病例和 626 例健康对照者的 10 个基因表达数据集。我们的结果在 AD 病例和健康对照者的五个大脑区域之间返回了 1713 个稳健差异表达基因(DEG)。随后的分析揭示了每个大脑区域发生改变的途径,其中 GABA 能突触途径和逆行内源性大麻素信号途径除小脑外,在所有受 AD 影响的大脑区域中均发生改变,而小脑对 AD 的影响相对不敏感。此外,我们还获得了这两个途径之间常见的稳健 DEG,并预测了三个 miRNA 作为针对这些基因的潜在候选物;hsa-mir-17-5p、hsa-mir-106a-5p 和 hsa-mir-373-3p。还确定了三个转录因子(TF)作为稳健 DEG 的潜在上游调节剂;ELK-1、GATA1 和 GATA2。我们的研究结果为进一步研究这些途径在 AD 发病机制中的作用以及这些 miRNA 和 TF 作为治疗和诊断靶点的潜在应用提供了基础。
