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Literature DB >> 16714593

Topical application of Escherichia coli-vectored vaccine as a simple method for eliciting protective immunity.

Jianfeng Zhang¹, Zhongkai Shi, Fan-Kun Kong, Edward Jex, Zhigang Huang, James M Watt, Kent R Van Kampen, De-Chu C Tang.

Abstract

We report here that animals can be protected against lethal infection by Clostridium tetani cells and Bacillus anthracis spores following topical application of intact particles of live or gamma-irradiated Escherichia coli vectors overproducing tetanus and anthrax antigens, respectively. Cutaneous gammadeltaT cells were rapidly recruited to the administration site. Live E. coli cells were not found in nonskin tissues after topical application, although fragments of E. coli DNA were disseminated transiently. Evidence suggested that intact E. coli particles in the outer layer of skin may be disrupted by a gammadeltaT-cell-mediated innate defense mechanism, followed by the presentation of E. coli ligand-adjuvanted intravector antigens to the immune system and rapid degradation of E. coli components. The nonreplicating E. coli vector overproducing an exogenous immunogen may foster the development of a new generation of vaccines that can be manufactured rapidly and administered noninvasively in a wide variety of disease settings.

Entities: Disease Species

Mesh：

Substances：

Year: 2006 PMID： 16714593 PMCID： PMC1479276 DOI： 10.1128/IAI.01836-05

Source DB: PubMed Journal: Infect Immun ISSN： 0019-9567 Impact factor: 3.441

41 in total

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15 in total

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Authors: Chun-Ming Huang
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Authors: Pei-Feng Liu; Yanhan Wang; Yu-Tsueng Liu; Chun-Ming Huang
Journal: J Nat Sci Date: 2017-02

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5. Proteomics integrated with Escherichia coli vector-based vaccines and antigen microarrays reveals the immunogenicity of a surface sialidase-like protein of Propionibacterium acnes.

Authors: Cheng-Po Huang; Yu-Tsueng Liu; Teruaki Nakatsuji; Yang Shi; Richard R Gallo; Shwu-Bin Lin; Chun-Ming Huang
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6. A novel immunogenic spore coat-associated protein in Bacillus anthracis: characterization via proteomics approaches and a vector-based vaccine system.

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