Yu Po-Ju, Zou Xun, Wu Yan, Li Sun-Tao, Xiao Hua
State Key Laboratory of Microbial Metabolism, School of Life Sciences and Biotechnology, Shanghai Jiao Tong University, Shanghai 200240, China.
Se Pu. 2025 May;43(5):529-538. doi: 10.3724/SP.J.1123.2024.10028.
Outer membrane vesicles (OMVs) are 20-400 nm in size, membrane-bound, and secreted by gram-negative bacteria. OMVs play important roles in processes such as toxin delivery and immune evasion. Although many studies have revealed the critical roles played by OMVs, their heterogeneity has limited our ability to attain a comprehensive understanding of their protein compositions and functions. Therefore, studying the compositions of heterogeneous OMVs subpopulations and their biological functions is important. Herein, we used ultracentrifugation combined with density-gradient centrifugation and quantitative proteomics to systematically separate, characterize, and comprehensively analyze OMVs secreted by DH5α and PAO1. First, crude OMVs extracts from both strains were obtained by ultracentrifugation and subjected to iodixanol density-gradient centrifugation to afford six fractions each. DH5α-OMVs and PAO1-OMVs particle-size distributions were then determined via nanoparticle tracking analysis, with average particle sizes of 131.0-161.0 and 140.0-169.0 nm determined for the two subpopulation, respectively. Vesicles were observed to have classical chattel structures by transmission electron microscopy. OMVs subpopulation distributions in the density-gradated fractions were determined by silver staining and protein immunoblotting, which also identified F1a-F4a and F1b-F5b as the effective DH5α-OMVs and PAO1-OMVs subpopulation fractions, respectively. We then identified 2388 and 905 proteins from the DH5α-OMVs and PAO1-OMVs subpopulation, respectively, and used k-means clustering and gene ontology (GO) enrichment analyses to reveal the heterogeneities of the various density subpopulations in terms of biological functions, such as energy metabolism, material transport and ribosome synthesis. Comparative analysis of the DH5α-OMVs and PAO1-OMVs subpopulations finally revealed that they exhibit different functional characteristics, despite sharing commonalities in their basic OMVs functions. The F1a DH5α-OMVs subpopulation was found to be enriched for functions related to amino-acid metabolism and protein synthesis, while the F2b PAO1-OMVs subpopulation exhibited significant biomolecule synthesis functions. This study revealed that bacterial OMVs subpopulations have distinct biological functions, which in turn provides a new theoretical basis for understanding the pathogenic mechanisms of bacteria and their interactions with the host, thereby expanding their biological applications.
外膜囊泡(OMVs)大小为20 - 400纳米,有膜包裹,由革兰氏阴性菌分泌。OMVs在毒素传递和免疫逃避等过程中发挥重要作用。尽管许多研究揭示了OMVs所起的关键作用,但其异质性限制了我们全面了解其蛋白质组成和功能的能力。因此,研究异质性OMVs亚群的组成及其生物学功能很重要。在此,我们使用超速离心结合密度梯度离心和定量蛋白质组学方法,系统地分离、表征并全面分析了DH5α和PAO1分泌的OMVs。首先,通过超速离心获得两株菌的粗OMV提取物,并进行碘克沙醇密度梯度离心,各得到六个组分。然后通过纳米颗粒跟踪分析确定DH5α - OMVs和PAO1 - OMVs的粒径分布,两个亚群的平均粒径分别为131.0 - 161.0纳米和140.0 - 169.0纳米。通过透射电子显微镜观察到囊泡具有典型的小泡结构。通过银染和蛋白质免疫印迹确定密度梯度组分中OMVs亚群的分布,它们还分别将F1a - F4a和F1b - F5b鉴定为有效的DH5α - OMVs和PAO1 - OMVs亚群组分。然后我们分别从DH5α - OMVs和PAO1 - OMVs亚群中鉴定出2388种和905种蛋白质,并使用k均值聚类和基因本体(GO)富集分析来揭示不同密度亚群在能量代谢、物质运输和核糖体合成等生物学功能方面的异质性。对DH5α - OMVs和PAO1 - OMVs亚群的比较分析最终表明,尽管它们在基本的OMVs功能上有共性,但表现出不同的功能特征。发现F1a DH5α - OMVs亚群富含与氨基酸代谢和蛋白质合成相关的功能,而F2b PAO1 - OMVs亚群具有显著的生物分子合成功能。这项研究表明细菌OMVs亚群具有不同的生物学功能,这反过来为理解细菌的致病机制及其与宿主的相互作用提供了新的理论基础,从而拓展了它们的生物学应用。
