Phytosterols in mountain cultivated ginseng, as master healthy ageing dietary supplement, activates steroid signaling in ageing Drosophila melanogaster

IF 3.9
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引用次数: 0

Abstract

Mountain cultivated ginseng (MCG) is planted in mountain forests to simulate traditional wild ginseng; therefore, it has a greater pharmacological effect than cultivated ginseng (CG) in the garden; however, insufficient evidence confirms this theory. In light of the health-promoting and life-extending properties of ginseng, we analyzed the efficacy of MCG and CG. Initial observations revealed that the phytosterols content of MCG was higher than that of CG, with a positive correlation to the duration of growth. The distinction between phytosterols in MCG and in CG is predominately determined by the stigmasterol content using High-Performance Liquid Chromatography (HPLC). The lifespan of Drosophila melanogaster (fruit flies) that aged naturally was prolonged by phytosterols in MCG and CG and stigmasterols. Further, they prolonged healthy ageing as measured by progeny numbers, length of sleep, climbing distance, and survival following oxidative damage. The findings of behavioral observations revealed that phytosterols in MCG were more efficacious than in CG in promoting health maintenance and life extension; moreover, stigmasterol indicated that these effects were dose-dependent. Stigmasterols, phytosterols in MCG and CG have restored age-associated decreases in steroid hormone levels. Notably, molecular docking was predicted to promote stigmasterol's binding to the steroid hormone receptor ECR due to its similarity to steroid hormones. In addition, stigmasterols triggered the steroid hormone signaling pathway by increasing the activity of key genes Eip75B and Br in 20E signaling and Jhamt, HmGR, Met, and Kr-h1 in JH signaling. Phytosterols, as a natural product, regulated health and longevity as a dietary supplement similar to that of steroids, which supported the social requirements of healthy ageing.

山参中的植物甾醇作为健康老龄化膳食补充剂,可激活老龄化黑腹果蝇体内的类固醇信号转导
山地栽培人参(MCG)种植在山林中,模拟传统的野山参,因此其药理作用比园林栽培人参(CG)更强;然而,没有足够的证据证实这一理论。鉴于人参具有促进健康和延年益寿的功效,我们对 MCG 和 CG 的功效进行了分析。初步观察发现,MCG 的植物固醇含量高于 CG,且与生长期呈正相关。使用高效液相色谱法(HPLC)测定麦角甾醇含量是区分 MCG 和 CG 中植物甾醇的主要方法。MCG 和 CG 中的植物甾醇以及豆甾醇延长了自然衰老的黑腹果蝇(果蝇)的寿命。此外,根据后代数量、睡眠时间、爬行距离和氧化损伤后的存活率来衡量,它们还能延长健康老化的时间。行为观察结果表明,MCG 中的植物甾醇比 CG 中的植物甾醇在促进保持健康和延长寿命方面更有效;此外,豆固醇表明这些效果与剂量有关。麦角甾醇、MCG 和 CG 中的植物甾醇可恢复与年龄相关的类固醇激素水平的下降。值得注意的是,根据分子对接预测,由于豆固醇与类固醇激素受体 ECR 相似,因此可以促进豆固醇与类固醇激素受体 ECR 的结合。此外,豆甾醇还通过提高 20E 信号转导中关键基因 Eip75B 和 Br 以及 JH 信号转导中关键基因 Jhamt、HmGR、Met 和 Kr-h1 的活性来触发类固醇激素信号转导途径。植物甾醇作为一种天然产品,可以调节健康和长寿,作为一种类似于类固醇的膳食补充剂,支持健康老龄化的社会需求。
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来源期刊
Experimental gerontology
Experimental gerontology Ageing, Biochemistry, Geriatrics and Gerontology
CiteScore
6.70
自引率
0.00%
发文量
0
审稿时长
66 days
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