Zhao Xuan, Lu Lulu, Qi Yonghao, Li Miao, Zhou Lijun
a Tianjin Key Laboratory for Modern Drug Delivery & High-Efficiency, School of Pharmaceutical Science and Technology , Tianjin University , Tianjin , P.R. China.
Biosci Biotechnol Biochem. 2017 Oct;81(10):1908-1916. doi: 10.1080/09168451.2017.1365592. Epub 2017 Aug 23.
The naturally occurring anthraquinone emodin has been serving primarily as an anti-bacterial and anti-inflammatory agent. However, little is known about its potential on anti-aging. This investigation examined the effect of emodin on lifespan and focused on its physiological molecular mechanisms in vivo. Using Caenorhabditis elegans (C. elegans) as an animal model, we found emodin could extend lifespan of worms and improve their antioxidant capacity. Our mechanistic studies revealed that emodin might function via insulin/IGF-1 signaling (IIS) pathway involving, specifically the core transcription factor DAF-16. Quantitative RT-PCR results illustrated that emodin up-regulated transcription of DAF-16 target genes which express antioxidants to promote antioxidant capacity and lifespan of worms. In addition, attenuated effect in sir-2.1 mutants suggests that emodin likely functioned in a SIR-2.1-dependent manner. Our study uncovers a novel role of emodin in prolonging lifespan and supports the understanding of emodin being a beneficial dietary supplement.
天然存在的蒽醌大黄素主要作为一种抗菌和抗炎剂。然而,关于其抗衰老潜力的了解却很少。本研究考察了大黄素对寿命的影响,并着重研究了其在体内的生理分子机制。以秀丽隐杆线虫为动物模型,我们发现大黄素可以延长线虫的寿命并提高其抗氧化能力。我们的机制研究表明,大黄素可能通过胰岛素/胰岛素样生长因子-1信号通路(IIS)发挥作用,具体涉及核心转录因子DAF-16。定量逆转录聚合酶链反应结果表明,大黄素上调了DAF-16靶基因的转录,这些基因表达抗氧化剂以促进线虫的抗氧化能力和寿命。此外,在sir-2.1突变体中的减弱效应表明大黄素可能以SIR-2.1依赖的方式发挥作用。我们的研究揭示了大黄素在延长寿命方面的新作用,并支持将大黄素理解为一种有益的膳食补充剂。
