An in silico analysis of genome-wide expression profiles of the effects of exhaustive exercise identifies heat shock proteins as the key players

IF 0.8 Q4 GENETICS & HEREDITY
Carlos A. Orozco , Yeimy González-Giraldo , Diego A. Bonilla , Diego A. Forero
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引用次数: 1

Abstract

Physical exercise induces important system disturbances in the human body in a dose-response manner. Meta-analyses of genome-wide expression studies (GWES) might contribute to identify gene expression patterns and to a better understanding of the molecular mechanisms behind the complexity of adaptations to exercise, under a systems biology approach. Here, we aimed to analyze available data for human GWES that have evaluated the effect of exhaustive exercise in peripheral blood mononuclear cells (PBMC) and white blood cells (WBC). Three primary datasets retrieved from the NCBI Gene Expression Omnibus were meta-analyzed using a random effects model in the NetworkAnalyst software. After identifying nine differentially expressed genes (DEGs), we performed functional enrichment analyses to extract relevant biological information. A protein-protein interactions network on DEGs was built to evaluate the associated regulatory pathways. We found that five upregulated genes were members of the heat shock protein family, one of the top stress-response groups of genes. The enrichment analysis revealed key roles of the DEGs on the cellular adaptations to exercise-induced stress (i.e., temperature stimulus, topologically-incorrect and unfolded proteins). Our comparison analysis of DEG signatures found in blood cells with the expression pattern on muscle skeletal tissue showed some common genes. Thus, novel DEGs that might serve as hormetic mediators to exercise-induced adaptations were identified. Further experimental research is needed to validate these findings.

一项对穷尽运动影响的全基因组表达谱的计算机分析确定热休克蛋白是关键的参与者
体育锻炼以剂量-反应方式诱发人体重要的系统紊乱。在系统生物学方法下,全基因组表达研究(GWES)的荟萃分析可能有助于确定基因表达模式,并更好地理解运动适应复杂性背后的分子机制。在这里,我们的目的是分析人类GWES的现有数据,这些数据已经评估了穷尽运动对外周血单核细胞(PBMC)和白细胞(WBC)的影响。使用NetworkAnalyst软件中的随机效应模型对从NCBI基因表达综合数据库中检索到的三个主要数据集进行meta分析。在鉴定了9个差异表达基因(DEGs)后,我们进行了功能富集分析,以提取相关的生物学信息。建立了DEGs上的蛋白-蛋白相互作用网络来评估相关的调控途径。我们发现5个上调的基因是热休克蛋白家族的成员,热休克蛋白家族是最重要的应激反应基因群之一。富集分析揭示了deg在细胞适应运动诱导应激(即温度刺激、拓扑不正确和未折叠的蛋白质)中的关键作用。我们对血细胞中发现的DEG特征与肌肉骨骼组织的表达模式进行了比较分析,发现了一些共同的基因。因此,新的deg可能作为运动诱导适应的促热介质被确定。需要进一步的实验研究来验证这些发现。
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来源期刊
Meta Gene
Meta Gene Biochemistry, Genetics and Molecular Biology-Genetics
CiteScore
1.10
自引率
0.00%
发文量
20
期刊介绍: Meta Gene publishes meta-analysis, polymorphism and population study papers that are relevant to both human and non-human species. Examples include but are not limited to: (Relevant to human specimens): 1Meta-Analysis Papers - statistical reviews of the published literature of human genetic variation (typically linked to medical conditionals and/or congenital diseases) 2Genome Wide Association Studies (GWAS) - examination of large patient cohorts to identify common genetic factors that influence health and disease 3Human Genetics Papers - original studies describing new data on genetic variation in smaller patient populations 4Genetic Case Reports - short communications describing novel and in formative genetic mutations or chromosomal aberrations (e.g., probands) in very small demographic groups (e.g., family or unique ethnic group). (Relevant to non-human specimens): 1Small Genome Papers - Analysis of genetic variation in organelle genomes (e.g., mitochondrial DNA) 2Microbiota Papers - Analysis of microbiological variation through analysis of DNA sequencing in different biological environments 3Ecological Diversity Papers - Geographical distribution of genetic diversity of zoological or botanical species.
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