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Literature DB >> 33613498

Outer Membrane Vesicle Induction and Isolation for Vaccine Development.

Melanie D Balhuizen¹, Edwin J A Veldhuizen¹, Henk P Haagsman¹.

Abstract

Gram-negative bacteria release vesicular structures from their outer membrane, so called outer membrane vesicles (OMVs). OMVs have a variety of functions such as waste disposal, communication, and antigen or toxin delivery. These vesicles are the promising structures for vaccine development since OMVs carry many surface antigens that are identical to the bacterial surface. However, isolation is often difficult and results in low yields. Several methods to enhance OMV yield exist, but these do affect the resulting OMVs. In this review, our current knowledge about OMVs will be presented. Different methods to induce OMVs will be reviewed and their advantages and disadvantages will be discussed. The effects of the induction and isolation methods used in several immunological studies on OMVs will be compared. Finally, the challenges for OMV-based vaccine development will be examined and one example of a successful OMV-based vaccine will be presented.

Entities: CellLine Chemical Disease Gene Species

Keywords: Bordetella pertussis; Neisseria meningitidis; host defense peptides; induction; isolation; outer membrane vesicles; vaccine development

Year: 2021 PMID： 33613498 PMCID： PMC7889600 DOI： 10.3389/fmicb.2021.629090

Source DB: PubMed Journal: Front Microbiol ISSN： 1664-302X Impact factor: 5.640

8 in total

Review 1. Pseudomonas aeruginosa: pathogenesis, virulence factors, antibiotic resistance, interaction with host, technology advances and emerging therapeutics.

Authors: Shugang Qin; Wen Xiao; Chuanmin Zhou; Qinqin Pu; Xin Deng; Lefu Lan; Haihua Liang; Xiangrong Song; Min Wu
Journal: Signal Transduct Target Ther Date: 2022-06-25

2. Envelope virus-mimetic nanovaccines by hybridizing bioengineered cell membranes with bacterial vesicles.

Authors: Mengmeng Zhang; Lu Wang; Jinyao Liu; Yan Pang
Journal: iScience Date: 2022-05-30

Review 3. Application of Stem Cell-Derived Extracellular Vesicles as an Innovative Theranostics in Microbial Diseases.

Authors: Hani Keshavarz Alikhani; Bahare Shokoohian; Sama Rezasoltani; Nikoo Hossein-Khannazer; Abbas Yadegar; Moustapha Hassan; Massoud Vosough
Journal: Front Microbiol Date: 2021-11-30 Impact factor: 5.640

Review 4. Extracellular vesicles: Emerging tools as therapeutic agent carriers.

Authors: Shan Liu; Xue Wu; Sutapa Chandra; Christopher Lyon; Bo Ning; Li Jiang; Jia Fan; Tony Y Hu
Journal: Acta Pharm Sin B Date: 2022-05-11 Impact factor: 14.903

Review 5. Strategies to Tackle Antimicrobial Resistance: The Example of Escherichia coli and Pseudomonas aeruginosa.

Authors: Giada Antonelli; Luigia Cappelli; Paolo Cinelli; Rossella Cuffaro; Benedetta Manca; Sonia Nicchi; Serena Tondi; Giacomo Vezzani; Viola Viviani; Isabel Delany; Maria Scarselli; Francesca Schiavetti
Journal: Int J Mol Sci Date: 2021-05-06 Impact factor: 5.923

Review 6. Shigella Outer Membrane Vesicles as Promising Targets for Vaccination.

Authors: Muhammad Qasim; Marius Wrage; Björn Nüse; Jochen Mattner
Journal: Int J Mol Sci Date: 2022-01-17 Impact factor: 5.923

7. The Outer Membrane Vesicles of Salmonella enterica Serovar Typhimurium Activate Chicken Immune Cells through Lipopolysaccharides and Membrane Proteins.

Authors: Hongxiao Cui; Yajun Sun; Hua Lin; Yan Zhao; Xin Zhao
Journal: Pathogens Date: 2022-03-11

8. Outer Membrane Vesicles Protect Gram-Negative Bacteria against Host Defense Peptides.

Authors: Melanie D Balhuizen; Albert van Dijk; Jeroen W A Jansen; Chris H A van de Lest; Edwin J A Veldhuizen; Henk P Haagsman
Journal: mSphere Date: 2021-07-07 Impact factor: 4.389

8 in total