Department of Food Science and Engineering, Jinan University, Guangzhou, Guangdong, China.
J Sci Food Agric. 2022 Nov;102(14):6432-6442. doi: 10.1002/jsfa.12010. Epub 2022 Jun 2.
Aging causes decreased antioxidant capacity and chronic inflammation and may even elevate cancer risks. Previous studies reported that flaxseed oil (FO) can alleviate age-related diseases, including improving alcoholic liver disease, atherosclerosis and diabetes. However, whether the intestinal microbiota accountable for this alleviation is still unknown. This study aims to study the antioxidant effects of FO in an aging rat model and the underlying mechanism between the intestinal microbiota and aging.
Our results presented that serum and liver antioxidant capacities in FO group were up-regulated, and liver inflammation in FO group was reduced. The 16S rDNA sequencing showed that FO regulated the microbial community, including up-regulation of four families of Lactobacillus and six families of Clostridium. In addition, FO had also adjusted the relative abundance of several genera such as Ruminococcaceae_UCG-005 and Prevotella_9, which may be the key bacteria associated with the aging process. Colonic transcriptome analysis showed that there were 1679 differentially expressed genes (DEGs) in the Model group and the FO group (134 up-regulated and 1545 down-regulated). Gene set enrichment analysis (GSEA) revealed FO down-regulates the expression of the upstream genes Ptprc, Lck, Zap70, Lat and Lcp2 in the T cell receptor signaling pathway.
In conclusion, FO improved antioxidant capacity and reduced intestinal microbial disturbances caused by aging damage, indicating that dietary FO has the potential to fight aging damage. This study provides a more comprehensive view of dietary intervention to improve aging. © 2022 Society of Chemical Industry.
衰老会导致抗氧化能力下降和慢性炎症,甚至会增加癌症风险。先前的研究报告称,亚麻籽油(FO)可以缓解与年龄相关的疾病,包括改善酒精性肝病、动脉粥样硬化和糖尿病。然而,负责这种缓解的肠道微生物群是否仍然未知。本研究旨在研究 FO 在衰老大鼠模型中的抗氧化作用,以及肠道微生物群与衰老之间的潜在机制。
我们的结果表明,FO 组的血清和肝脏抗氧化能力上调,FO 组的肝脏炎症减轻。16S rDNA 测序显示,FO 调节了微生物群落,包括上调了乳杆菌的四个家族和梭菌的六个家族。此外,FO 还调整了几个属的相对丰度,如 Ruminococcaceae_UCG-005 和 Prevotella_9,它们可能是与衰老过程相关的关键细菌。结肠转录组分析显示,模型组和 FO 组之间有 1679 个差异表达基因(DEGs)(134 个上调和 1545 个下调)。基因集富集分析(GSEA)表明,FO 下调了 T 细胞受体信号通路中 Ptprc、Lck、Zap70、Lat 和 Lcp2 等上游基因的表达。
总之,FO 改善了抗氧化能力,减少了衰老损伤引起的肠道微生物失调,表明膳食 FO 具有抵抗衰老损伤的潜力。本研究为改善衰老提供了更全面的饮食干预观点。
