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Sang S, Song W, Lu L, Ou Q, Guan Y, Tao H, Wang Y, Liu C. The Trimeric Autotransporter Adhesin SadA from Salmonella spp. as a Novel Bacterial Surface Display System. Vaccines (Basel) 2024; 12:399. [PMID: 38675781 PMCID: PMC11054257 DOI: 10.3390/vaccines12040399] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/10/2024] [Revised: 03/25/2024] [Accepted: 03/26/2024] [Indexed: 04/28/2024] Open
Abstract
Bacterial surface display platforms have been developed for applications such as vaccine delivery and peptide library screening. The type V secretion system is an attractive anchoring motif for the surface expression of foreign proteins in gram-negative bacteria. SadA belongs to subtype C of the type V secretion system derived from Salmonella spp. and promotes biofilm formation and host cell adherence. The inner membrane lipoprotein SadB is important for SadA translocation. In this study, SadA was used as an anchoring motif to expose heterologous proteins in Salmonella typhimurium using SadB. The ability of SadA to display heterologous proteins on the S. typhimurium surface in the presence of SadB was approximately three-fold higher than that in its absence of SadB. Compared to full-length SadA, truncated SadAs (SadA877 and SadA269) showed similar display capacities when exposing the B-cell epitopes of urease B from Helicobacter pylori (UreB158-172aa and UreB349-363aa). We grafted different protein domains, including mScarlet (red fluorescent protein), the urease B fragment (UreBm) from H. pylori SS1, and/or protective antigen domain 4 from Bacillus anthracis A16R (PAD4), onto SadA877 or SadA1292. Whole-cell dot blotting, immunofluorescence, and flow cytometric analyses confirmed the localization of Flag×3-mScarlet (~30 kDa) and Flag×3-UreBm-mScarlet (~58 kDa) to the S. typhimurium surface using truncated SadA877 or SadA1292 as an anchoring motif. However, Flag×3-UreBm-PAD4-mScarlet (~75 kDa) was displayed on S. typhimurium using SadA1292. The oral administrated pSadBA1292-FUM/StmΔygeAΔmurI and pSadBA877-FUM/StmΔygeAΔmurI could elicit a significant mucosal and humoral immunity response. SadA could thus be used as an anchoring motif for the surface expression of large heterologous proteins as a potential strategy for attenuated bacterial vaccine development.
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Affiliation(s)
- Shuli Sang
- State Key Laboratory of Pathogen and Biosecurity, Institute of Biotechnology, Academy of Military Medical Sciences, 20 Dongda Street, Fengtai District, Beijing 100071, China; (S.S.); (W.S.); (L.L.); (Q.O.); (Y.G.); (H.T.)
| | - Wenge Song
- State Key Laboratory of Pathogen and Biosecurity, Institute of Biotechnology, Academy of Military Medical Sciences, 20 Dongda Street, Fengtai District, Beijing 100071, China; (S.S.); (W.S.); (L.L.); (Q.O.); (Y.G.); (H.T.)
| | - Lu Lu
- State Key Laboratory of Pathogen and Biosecurity, Institute of Biotechnology, Academy of Military Medical Sciences, 20 Dongda Street, Fengtai District, Beijing 100071, China; (S.S.); (W.S.); (L.L.); (Q.O.); (Y.G.); (H.T.)
| | - Qikun Ou
- State Key Laboratory of Pathogen and Biosecurity, Institute of Biotechnology, Academy of Military Medical Sciences, 20 Dongda Street, Fengtai District, Beijing 100071, China; (S.S.); (W.S.); (L.L.); (Q.O.); (Y.G.); (H.T.)
- School of Basic Medical Sciences, Guangxi Medical University, 22 Shuangyong Road, Nanning 530021, China
| | - Yiyan Guan
- State Key Laboratory of Pathogen and Biosecurity, Institute of Biotechnology, Academy of Military Medical Sciences, 20 Dongda Street, Fengtai District, Beijing 100071, China; (S.S.); (W.S.); (L.L.); (Q.O.); (Y.G.); (H.T.)
| | - Haoxia Tao
- State Key Laboratory of Pathogen and Biosecurity, Institute of Biotechnology, Academy of Military Medical Sciences, 20 Dongda Street, Fengtai District, Beijing 100071, China; (S.S.); (W.S.); (L.L.); (Q.O.); (Y.G.); (H.T.)
| | - Yanchun Wang
- State Key Laboratory of Pathogen and Biosecurity, Institute of Biotechnology, Academy of Military Medical Sciences, 20 Dongda Street, Fengtai District, Beijing 100071, China; (S.S.); (W.S.); (L.L.); (Q.O.); (Y.G.); (H.T.)
| | - Chunjie Liu
- State Key Laboratory of Pathogen and Biosecurity, Institute of Biotechnology, Academy of Military Medical Sciences, 20 Dongda Street, Fengtai District, Beijing 100071, China; (S.S.); (W.S.); (L.L.); (Q.O.); (Y.G.); (H.T.)
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Bioterrorism Preparedness and Response in Poland: Prevention, Surveillance, and Mitigation Planning. Disaster Med Public Health Prep 2020; 15:697-702. [PMID: 32635956 DOI: 10.1017/dmp.2020.97] [Citation(s) in RCA: 3] [Impact Index Per Article: 0.8] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 12/15/2022]
Abstract
OBJECTIVES Biological weapons are one of the oldest weapons of mass destruction used by man. Their use has not only determined the outcome of battles, but also influenced the fate of entire civilizations. Although the use of biological weapons agents in a terrorist attack is currently unlikely, all services responsible for the surveillance and removal of epidemiological threats must have clear guidelines and emergency response plans. METHODS In the face of the numerous threats appearing in the world, it has become necessary to put the main emphasis on modernizing, securing, and maintaining structures in the field of medicine which are prepared for unforeseen crises and situations related to the use of biological agents. RESULTS This article presents Poland's current preparation to take action in the event of a bioterrorist threat. The study presents both the military aspect and procedures for dealing with contamination. CONCLUSIONS In Poland, as in other European Union countries fighting terrorism, preparations should be made to defend against biological attacks, improve the flow of information on the European security system, strengthen research centers, train staff, create observation units and vaccination centers, as well as prepare hospitals for the hospitalization of patients-potential victims of bioterrorist attacks.
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Galán-Relaño Á, Gómez-Gascón L, Rodríguez-Franco A, Luque I, Huerta B, Tarradas C, Rodríguez-Ortega MJ. Search of Potential Vaccine Candidates against Trueperella pyogenes Infections through Proteomic and Bioinformatic Analysis. Vaccines (Basel) 2020; 8:vaccines8020314. [PMID: 32560444 PMCID: PMC7350218 DOI: 10.3390/vaccines8020314] [Citation(s) in RCA: 3] [Impact Index Per Article: 0.8] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/09/2020] [Revised: 06/11/2020] [Accepted: 06/14/2020] [Indexed: 11/16/2022] Open
Abstract
Trueperella pyogenes is an opportunistic pathogen, responsible for important infections in pigs and significant economic losses in swine production. To date, there are no available commercial vaccines to control diseases caused by this bacterium. In this work, we performed a comparative proteomic analysis of 15 T. pyogenes clinical isolates, by “shaving” live cells, followed by LC-MS/MS, aiming at the identification of the whole set of surface proteins (i.e., the “pan-surfome”) as a source of antigens to be tested in further studies as putative vaccine candidates, or used in diagnostic tools. A total of 140 surface proteins were detected, comprising 25 cell wall proteins, 10 secreted proteins, 23 lipoproteins and 82 membrane proteins. After describing the “pan-surfome”, the identified proteins were ranked in three different groups based on the following criteria: to be (i) surface-exposed, (ii) highly conserved and (iii) widely distributed among different isolates. Two cell wall proteins, three lipoproteins, four secreted and seven membrane proteins were identified in more than 70% of the studied strains, were highly expressed and highly conserved. These proteins are potential candidates, alone or in combination, to obtain effective vaccines against T. pyogenes or to be used in the diagnosis of this pathogen.
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Affiliation(s)
- Ángela Galán-Relaño
- Departamento de Sanidad Animal, Universidad de Córdoba; Campus de Excelencia Internacional CeiA3, 14071 Córdoba, Spain; (Á.G.-R.); (I.L.); (B.H.); (C.T.)
| | - Lidia Gómez-Gascón
- Departamento de Sanidad Animal, Universidad de Córdoba; Campus de Excelencia Internacional CeiA3, 14071 Córdoba, Spain; (Á.G.-R.); (I.L.); (B.H.); (C.T.)
- Correspondence:
| | - Antonio Rodríguez-Franco
- Departamento de Bioquímica y Biología Molecular, Universidad de Córdoba, and Campus de Excelencia Internacional CeiA3, 14071 Córdoba, Spain; (A.R.-F.); (M.J.R.-O.)
| | - Inmaculada Luque
- Departamento de Sanidad Animal, Universidad de Córdoba; Campus de Excelencia Internacional CeiA3, 14071 Córdoba, Spain; (Á.G.-R.); (I.L.); (B.H.); (C.T.)
| | - Belén Huerta
- Departamento de Sanidad Animal, Universidad de Córdoba; Campus de Excelencia Internacional CeiA3, 14071 Córdoba, Spain; (Á.G.-R.); (I.L.); (B.H.); (C.T.)
| | - Carmen Tarradas
- Departamento de Sanidad Animal, Universidad de Córdoba; Campus de Excelencia Internacional CeiA3, 14071 Córdoba, Spain; (Á.G.-R.); (I.L.); (B.H.); (C.T.)
| | - Manuel J. Rodríguez-Ortega
- Departamento de Bioquímica y Biología Molecular, Universidad de Córdoba, and Campus de Excelencia Internacional CeiA3, 14071 Córdoba, Spain; (A.R.-F.); (M.J.R.-O.)
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