NFκB2基因作为一种对间歇性步行训练产生表观遗传学反应的新型候选基因。

NFκB2 Gene as a Novel Candidate that Epigenetically Responds to Interval Walking Training.

作者信息

Zhang Y, Hashimoto S, Fujii C, Hida S, Ito K, Matsumura T, Sakaizawa T, Morikawa M, Masuki S, Nose H, Higuchi K, Nakajima K, Taniguchi S

机构信息

Department of Molecular Oncology, Institute of Pathogenesis and Disease Prevention, Shinshu University Graduate School of Medicine, Matsumoto, Japan.

Department of Advanced Medicine for Health Promotion Institute for Biomedical Sciences, Shinshu University Interdisciplinary Cluster for Cutting Edge Research, Matsumoto, Japan.

出版信息

Int J Sports Med. 2015 Aug;36(9):769-75. doi: 10.1055/s-0035-1547221. Epub 2015 Apr 22.

DOI:10.1055/s-0035-1547221

PMID:25901949

Abstract

Physical fitness has been reported to decrease the risk of lifestyle-related diseases. The present study evaluated genome-wide methylation under the hypothesis that interval walking training (IWT) imparted beneficial effects on health, particularly by epigenetically ameliorating susceptibility to inflammation. We screened DNA from peripheral blood samples via genome-wide microarray for genes whose methylation was affected by IWT, paying special attention to promoter regions, and identified over 40 hyper- or hypo-methylated genes following IWT that were not witnessed in controls. We next selected genes in which the degree of methylation change in the promoter region was correlated with energy consumption following IWT. In this way, we found the NFκB2 gene to have increased methylation in multiple regions of its promoter sequence following participation in an exercise regimen. Next, IWT-induced NFκB2 hyper-methylation was confirmed by a quantitative PyroSequencing assessment of methylation in samples obtained from independent subjects who also underwent IWT. The increase in NFκB2 gene promoter methylation by IWT indicates that this regimen may suppress pro-inflammatory cytokines. Thus, these results provide an additional line of evidence that IWT is advantageous in promoting health from an epigenetic perspective by ameliorating susceptibility to inflammation.

摘要

据报道，身体健康可降低与生活方式相关疾病的风险。本研究在间歇步行训练（IWT）对健康有益的假设下，评估了全基因组甲基化情况，特别是通过表观遗传方式改善炎症易感性。我们通过全基因组微阵列从外周血样本中筛选受IWT影响甲基化的基因，特别关注启动子区域，并在IWT后鉴定出40多个甲基化程度升高或降低的基因，而在对照组中未观察到这些基因。接下来，我们选择启动子区域甲基化变化程度与IWT后能量消耗相关的基因。通过这种方式，我们发现参与运动方案后，NFκB2基因启动子序列的多个区域甲基化增加。接下来，通过对同样接受IWT的独立受试者样本进行甲基化定量焦磷酸测序评估，证实了IWT诱导的NFκB2高甲基化。IWT导致NFκB2基因启动子甲基化增加表明该方案可能抑制促炎细胞因子。因此，这些结果提供了额外的证据，表明从表观遗传学角度来看，IWT通过改善炎症易感性，在促进健康方面具有优势。

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NFκB2基因作为一种对间歇性步行训练产生表观遗传学反应的新型候选基因。

NFκB2 Gene as a Novel Candidate that Epigenetically Responds to Interval Walking Training.

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