Decoding genetic and pathophysiological mechanisms in amyotrophic lateral sclerosis and primary lateral sclerosis: A comparative study of differentially expressed genes and implicated pathways in motor neuron disorders.

3区 生物学 Q1 Biochemistry, Genetics and Molecular Biology
Hephzibah Cathryn R, Ankur Datta, Udhaya Kumar S, Hatem Zayed, Thirumal Kumar D, George Priya Doss C
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Abstract

Motor Neuron Disorders (MNDs), characterized by the degradation and loss of function of motor neurons, are recognized as fatal conditions with limited treatment options and no known cure. The present study aimed to identify the pathophysiological functions and affected genes in patients with MNDs, specifically Amyotrophic Lateral Sclerosis (ALS) and Primary Lateral Sclerosis (PLS). The GSE56808 dataset comprised three sample groups: six patients diagnosed with ALS (GSM1369650, GSM1369652, GSM1369654, GSM1369656, GSM1369657, GSM1369658), five patients diagnosed with PLS (GSM1369648, GSM1369649, GSM1369653, GSM1369655, GSM1369659), and six normal controls (GSM1369642, GSM1369643, GSM1369644, GSM1369645, GSM1369646, and GSM1369647). The application of computational analysis of microarray gene expression profiles enabled us to identify 346 significantly differentially expressed genes (DEGs), 169 genes for the ALS sample study, and 177 genes for the PLS sample study. Enrichment was carried out using MCODE, a Cytoscape plugin. Functional annotation of DEGs was carried out via ClueGO/CluePedia (v2.5.9) and further validated via the DAVID database. NRP2, SEMA3D, ROBO3 and, CACNB1, CACNG2 genes were identified as the gene of interest for ALS and PLS sample groups, respectively. Axonal guidance (GO:0007411) and calcium ion transmembrane transport (GO:0070588) were identified to be some of the significantly dysregulated gene ontology (GO) terms, with arrhythmogenic right ventricular cardiomyopathy (KEGG:05412) to be the top relevant KEGG pathway which is affected in MND patients. ROBO3 gene was observed to have distinctive roles in ALS and PLS-affected patients, hinting towards the differential progression of ALS from PLS. The insights derived from our comprehensive analysis accentuate the distinct variances in the underlying molecular pathogenesis of ALS and PLS. Further research should investigate the mechanistic roles of the identified DEGs and molecular pathways, leading to potential targeted therapies for ALS and PLS.

解码肌萎缩侧索硬化症和原发性侧索硬化症的遗传和病理生理机制:运动神经元疾病中不同表达基因和相关途径的比较研究。
运动神经元疾病(MNDs)以运动神经元退化和功能丧失为特征,是公认的致命疾病,治疗方法有限,且尚无治愈方法。本研究旨在确定 MNDs(尤其是肌萎缩侧索硬化症(ALS)和原发性侧索硬化症(PLS))患者的病理生理功能和受影响基因。GSE56808 数据集包括三个样本组:六名 ALS 患者(GSM1369650、GSM1369652、GSM1369654、GSM1369656、GSM1369657、GSM1369658)、五名 PLS 患者(GSM1369648、GSM1369649、GSM1369653、GSM1369655、GSM1369659)和六名正常对照组(GSM1369642、GSM1369643、GSM1369644、GSM1369645、GSM1369646 和 GSM1369647)。通过对芯片基因表达谱进行计算分析,我们确定了 346 个显著差异表达基因(DEG),其中 169 个基因用于 ALS 样本研究,177 个基因用于 PLS 样本研究。使用 Cytoscape 插件 MCODE 进行了富集。DEGs 的功能注释通过 ClueGO/CluePedia (v2.5.9)进行,并通过 DAVID 数据库进一步验证。NRP2、SEMA3D、ROBO3和CACNB1、CACNG2基因分别被确定为ALS和PLS样本组的相关基因。轴突导向(GO:0007411)和钙离子跨膜转运(GO:0070588)被确定为基因本体论(GO)中一些明显失调的术语,致心律失常性右室心肌病(KEGG:05412)是MND患者受影响最大的相关KEGG通路。我们还观察到 ROBO3 基因在 ALS 和 PLS 患者中发挥着不同的作用,这表明 ALS 与 PLS 的进展存在差异。从我们的综合分析中得出的见解突出了 ALS 和 PLS 潜在分子发病机制的不同之处。进一步的研究应探讨已确定的 DEGs 和分子通路的机理作用,从而为 ALS 和 PLS 找到潜在的靶向疗法。
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来源期刊
Advances in protein chemistry and structural biology
Advances in protein chemistry and structural biology BIOCHEMISTRY & MOLECULAR BIOLOGY-
CiteScore
7.40
自引率
0.00%
发文量
66
审稿时长
>12 weeks
期刊介绍: Published continuously since 1944, The Advances in Protein Chemistry and Structural Biology series has been the essential resource for protein chemists. Each volume brings forth new information about protocols and analysis of proteins. Each thematically organized volume is guest edited by leading experts in a broad range of protein-related topics.
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