分离(微生物学)
幽门螺杆菌
小泡
细菌外膜
化学
微生物学
生物物理学
出处
期刊:Methods in molecular biology
日期:2021-01-01
卷期号:: 123-130
标识
DOI:10.1007/978-1-0716-1302-3_13
摘要
Outer membrane vesicles (OMV) shed by pathogenic bacteria have multifunctional roles in disease initiation and progression. Further, their efficacy as novel vaccines has underscored their importance as potential therapeutics. Consequently, to advance allied research related to their immunogenicity and pathogenicity it is important to separate these vesicular structures from parental cells and demonstrate them to be free from cellular debris and other non-vesicle-related constituents such as protein aggregates. To do so represents a key step in initiating OMV-related studies and the techniques and strategies adopted by the H. pylori community to achieve this will be the focus of this chapter.The key methods used typically to obtain a heterogeneous mixture of OMV (size range: ~20-300 nm in diameter) include growth of bacteria in broth culture followed by differential centrifugation, filtration, and concentration to separate OMV from the intact organisms. Additional measures may be adopted to further size-fractionate the population of OMV including gel filtration or density gradient ultra-centrifugation in order to facilitate differentiation between the activities of small versus large OMV, as recent studies have demonstrated differential modes of entry into host cells as well as size-dependent differences in the OMV proteome (Turner et al., Front Immunol 9:1466, 2018). The OMV from H. pylori harbor many of the virulence factors associated with gastric disease including the CagA oncoprotein, the cytotoxin VacA, and the HtrA protease (Olofsson et al., mBio 5:e00979-14, 2014; Mullaney et al., Proteomics Clin Appl 3:785-96, 2009) and their close association with areas of cell-cell contact and efficient endocytosis supports a role for these complexes in gastric disease (Turkina et al., FEMS Microbiol Lett 362:fnv076, 2015).
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