生姜衍生的细胞外小泡:治疗脱发的天然方法

Yixin Hao, Qiujun Yang, Han Zhang, Chunyu Bai, Xibin Liu, Yuhua Gao
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摘要

背景:生姜(Zingiber officinale (L.) Rosc)作为一种可食用的植物衍生纳米粒子,具有回报率高、预算低、无伦理障碍、有益健康等优点。生姜衍生胞外小泡(GDEVs)是从生姜中分离出来的纳米级小泡:本研究利用 GDEVs 治疗脱发小鼠模型,并对其主要活性成分和潜在作用机制进行了研究。通过对 GDEVs 进行 LC-MS/MS 分析,发现其中含有 1299 种化学成分,并确定了其中的辅助成分。有趣的是,分析的关键在于发现了 13 种在毛发增殖中起关键作用的特定成分。这项研究的目的是调查 GDEVs 对脱发的保护作用。这些优势使生姜衍生纳米粒子成为克服与哺乳动物纳米粒子相关的技术限制的一种有前途的解决方案。这项研究阐明了 GDEVs 治疗脱发的作用机制。然而,GDEVs 治疗脱发的有效成分和作用机制尚不清楚:结果:采用差速离心法从生姜中分离出 GDEVs。对 GDEVs 的网络药理学分析表明,GDEVs 对脱发的抗脱发作用与其减轻炎症和促进毛囊干细胞增殖的能力密切相关。随后,用毛刷将其涂抹在脱发小鼠的秃顶部位。结果表明,涂抹 GDEVs 后,秃发部位迅速恢复,并促进了更健康毛发的生长:结论:本实验表明,GDEVs 能有效抑制脱发模型小鼠的炎症活动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ginger-Derived Extracellular Vesicles: A Natural Solution for Alopecia.

Background: Ginger (Zingiber officinale (L.) Rosc), as an edible plant-derived nanoparticle, offers several advantages, such as a high return rate, low budget, no ethical barriers, and good for health. Ginger-Derived Extracellular Vesicles (GDEVs) are nanoscale vesicles isolated from ginger.

Methods: In this study, GDEVs were used to treat the alopecia mouse model, and its main active components and potential mechanism of action were investigated. The LC-MS/MS analysis of GDEVs revealed the presence of 1299 chemical compounds, among which auxiliary components were identified. Interestingly, the crux of the analysis lies in the discovery of 13 specific ingredients that play a pivotal role in hair proliferation. The aim of this study was to investigate the protective effect of GDEVs on hair loss. These advantages make ginger-derived nanoparticles a promising solution to overcome technical limitations associated with mammalian nanoparticles. This study elucidates the mechanism of action of GDEVs in the treatment of alopecia. However, the active ingredients and mechanism of action of GDEVs in the treatment of hair loss are unknown.

Results: GDEVs were isolated from ginger using the differential centrifugal method. Network pharmacological analysis of the GDEVs revealed that the anti-hair loss effect of GDEVs on alopecia was closely linked to its ability to reduce inflammation and promote the proliferation of hair follicle stem cells. Subsequently, it was applied to the balding areas of hair-loss mice using a brush. The results demonstrated that the application of GDEVs led to a rapid recovery of the balding areas and promoted the growth of healthier hair.

Conclusion: This experiment reported that GDEVs can effectively suppress the inflammatory activity in the alopecia model mice.

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