Investigating the proliferative inhibition of HepG2 cells by exosome-like nanovesicles derived from Centella asiatica extract through metabolomics

积雪草 外体 代谢组学 化学 微泡 药理学 生物 传统医学 生物化学 医学 色谱法 小RNA 基因
作者
Jingyi Huang,XiaoYu Cao,Wenfeng Wu,Liang Han,FengYun Wang
出处
期刊:Biomedicine & Pharmacotherapy [Elsevier BV]
卷期号:176: 116855-116855 被引量:25
标识
DOI:10.1016/j.biopha.2024.116855
摘要

Nano-particles demonstrating excellent anticancer properties have gradually found application in cancer therapy. However, their widespread use is impeded by their potential toxicity, high cost, and the complexity of the preparation process. In this study, we achieved exosome-like Centella asiatica -derived nanovesicles (ADNVs) through a straightforward juicing and high-speed centrifugation process. We employed transmission electron microscopy and nanoparticle flow cytometry to characterize the morphology, diameter, and stability of the ADNVs. We evaluated the in vitro anticancer effects of ADNVs using Cell Counting Kit-8 and apoptosis assays. Through sequencing and bicinchoninic acid protein analysis, we discovered the abundant presence of proteins and microRNAs in ADNVs. These microRNAs can target various diseases such as cancer and infection. Furthermore, we demonstrated the effective internalization of ADNVs by HepG2 cells, resulting in an increase in reactive oxygen species levels, mitochondrial damage, cell cycle arrest at the G1 phase, and apoptosis. Finally, we analyzed changes in cellular metabolites post-treatment using cell metabolomics techniques. Our findings indicated that ADNVs primarily influence metabolic pathways such as amino acid metabolism and lipid biosynthesis, which are closely associated with HepG2 treatment. Our results demonstrate the potential utility of ADNVs as anticancer agents. • ADNVs contain a large number of mirnas that can target cancer. • The growth of reactive oxygen species in HepG2 cells was enhanced by ADNVs. • ADNVs may affect the proliferation of HepG2 cells through related metabolic pathways such as amino acid and lipid synthesis. • ADNVs may represent a new application of plant-derived nanomedicine in cancer immunotherapy.
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