外泌体MicroRNA在抗病毒免疫中的功能分析OA北大核心CSTPCD
Functional Analysis of Exosomal MicroRNA in Antiviral Immunity
外泌体是一种细胞外囊泡,内含有多种蛋白质和细胞调节因子,参与细胞间的信息传递并调控细胞的生长和生理过程.由于外泌体的功能差异性与分泌其细胞的类型和状态密切相关,因此在细胞水平的免疫研究中,外泌体可在一定程度上反映细胞的基因表达水平.病毒个体微小、结构简单,在感染宿主细胞,完成自身复制以及逃逸宿主免疫等过程中涉及到复杂的免疫调控网络,其中外泌体作为信息交流的新兴关注点,在这一免疫调控网络中的"使者"作用值得关注.MicroRNA在细胞间信息交流中也具有重要的调控作用,作为外泌体装载的货物,被选择性的分选到外泌体后,外泌体microRNA能够更加稳定的靶向调节生物功能,参与调控病毒免疫.本文介绍了外泌体的组成、发生机制以及内容物的成分,并以其中研究范围较广,研究内容较多的外泌体miRNA为出发点,重点阐述其在病毒免疫中的双重作用,通过了解外泌体miRNA在同种病毒或不同病毒中的调控作用,对进一步解析病毒入侵宿主的机理具有重要意义.
Exosomes are extracellular vesicles that contain various proteins and cellular regulatory factors,which participate in intercellular information transfer and regulate cell growth and physiological processes.Exosomes can indicate the level of gene expression of cells in immunological studies at the cellular level,as their functional variability is closely related to the type and state of the cells that secrete them.Viruses are small and simple in structure.They complete self-replication and escape host immunity by involving a complex immunoregulatory network.As a new focus of information exchange,the role of exosomes as"messengers"in this regulatory network deserves attention.MicroRNAs also play a crucial regulatory role in intercellular information exchange.After being selectively sorted into exosomes,as one of the exosome-loaded cargoes,exosomal microRNA can regulate biological functions more stably and participate in the regulation of viral immunity.In this paper,the composition,mechanism,and content of exosomes are briefly introduced.Taking the exosomal miRNA with a wide research range and more research content as a starting point,it is focused on its dual role in viral immunity.Understanding the regulatory role of exosomal microRNA in the same or different viruses would be of great significance to further analyze the mechanism of virus invasion into the host.
窦金萍;高维崧;韦双;高新桃;李轶女
中国农业科学院生物技术研究所,北京 100081
外泌体细胞外囊泡microRNA病毒免疫
exosomesextracellular vesiclesmicroRNAviral immunity
《生物技术通报》 2024 (005)
48-57 / 10
国家重点研发计划(2022YFD13007),国家自然科学基金项目(32072796,32372952,32002236)
评论