在抗衰老管道中重新利用植物提取物芹菜素的衰老作用

Hongwei Zhang, Qixia Xu, Zhirui Jiang, Rong Sun, Sanhong Liu, James L. Kirkland, Weidong Zhang, Yu Sun
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摘要

细胞衰老是一种由内在或环境压力引发的细胞命运,其特征是稳定的细胞周期停滞,并伴有高分泌特征,称为衰老相关分泌表型(SASP)。衰老细胞的数量会随着自然衰老而增加,在功能上会导致与年龄相关的器官功能障碍和多种疾病。在这项研究中,我们通过评估天然产物对人类衰老细胞的影响,对天然产物库进行了大规模筛选,以寻找衰老治疗候选药物。芹菜素是一种膳食类黄酮,以前曾报道过它具有抗氧化和抗炎活性。在衰老细胞中,芹菜素能阻断 ATM/p38 和 HSPA8 之间的相互作用,从而防止急性应激相关表型(ASAP)向 SASP 过渡。从机理上讲,芹菜素以细胞内氧化还原活性分子过氧化还原酶 6(PRDX6)为靶标,抑制了 PRDX6 的 iPLA2 活性,破坏了 SASP 发生的基础下游反应。在不逆转细胞衰老的情况下,芹菜素能剥夺癌细胞从衰老基质细胞培养中获得的恶性度,同时在抗癌疗法中与化疗联合使用时降低化疗耐药性。在临床前试验中,服用芹菜素可以改善全身照射后早衰动物的身体功能,减轻身体虚弱和认知障碍。总之,我们的研究表明,利用一种具有衰老能力的天然衍生化合物,可以通过调节 SASP 达到老年保护效果,从而为未来探索新型天然药物防治老年相关疾病提供了一个研究平台。
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Repurposing the plant-derived compound apigenin for senomorphic effect in antiaging pipelines
Cellular senescence is a cell fate triggered by inherent or environmental stress and characterized by stable cell cycle arrest accompanied by a hypersecretory feature, termed as the senescence-associated secretory phenotype (SASP). Senescent cell burden increases with natural aging, functionally contributing to age-related organ dysfunction and multiple disorders. In this study, we performed a large scale screening of a natural product library for senotherapeutic candidates by assessing their effects on human senescent cells. Apigenin, a dietary flavonoid previously reported with antioxidant and anti-inflammatory activities, exhibited a prominent capacity in targeting senescent cells as a senomorphic agent. In senescent cells, apigenin blocks the interactions between ATM/p38 and HSPA8, thus preventing transition of the acute stress-associated phenotype (ASAP) towards the SASP. Mechanistically, apigenin targets peroxiredoxin 6 (PRDX6), an intracellular redox-active molecule, suppressing the iPLA2 activity of PRDX6 and disrupting downstream reactions underlying the SASP development. Without reversing cellular senescence, apigenin deprives cancer cells of malignancy acquired from senescent stromal cells in culture, while reducing chemoresistance upon combination with chemotherapy in anticancer regimens. In preclinical trials, apigenin administration improves physical function of animals prematurely aged after whole body irradiation, alleviating physical frailty and cognitive impairment. Overall, our study demonstrates the potential of exploiting a naturally derived compound with senomorphic capacity to achieve geroprotective effects by modulating the SASP, thus providing a research platform for future exploration of novel natural agents against age-related conditions.
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