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Literature DB >> 25109662

Virus-like nanoparticle and DNA vaccination confers protection against respiratory syncytial virus by modulating innate and adaptive immune cells.

Eun-Ju Ko¹, Young-Man Kwon¹, Jong Seok Lee¹, Hye Suk Hwang¹, Si-Eun Yoo¹, Yu-Na Lee¹, Young-Tae Lee¹, Min-Chul Kim², Min Kyoung Cho¹, You Ri Lee¹, Fu-Shi Quan³, Jae-Min Song⁴, Sujin Lee⁵, Martin L Moore⁵, Sang-Moo Kang⁶.

Abstract

Respiratory syncytial virus (RSV) is an important human pathogen. Expression of virus structural proteins produces self-assembled virus-like nanoparticles (VLP). We investigated immune phenotypes after RSV challenge of immunized mice with VLP containing RSV F and G glycoproteins mixed with F-DNA (FdFG VLP). In contrast to formalin-inactivated RSV (FI-RSV) causing vaccination-associated eosinophilia, FdFG VLP immunization induced low bronchoalveolar cellularity, higher ratios of CD11c(+) versus CD11b(+) phenotypic cells and CD8(+) T versus CD4(+) T cells secreting interferon (IFN)-γ, T helper type-1 immune responses, and no sign of eosinophilia upon RSV challenge. Furthermore, RSV neutralizing activity, lung viral clearance, and histology results suggest that FdFG VLP can be comparable to live RSV in conferring protection against RSV and in preventing RSV disease. This study provides evidence that a combination of recombinant RSV VLP and plasmid DNA may have a potential anti-RSV prophylactic vaccine inducing balanced innate and adaptive immune responses.

Entities: CellLine Chemical Disease Gene Species

Keywords: Bronchoalveolar cells; Nanoparticle vaccine; Prophylactic vaccine; RSV

Mesh：

Substances：

Year: 2014 PMID： 25109662 PMCID： PMC4280318 DOI： 10.1016/j.nano.2014.07.013

Source DB: PubMed Journal: Nanomedicine ISSN： 1549-9634 Impact factor: 5.307

47 in total

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8. Respiratory syncytial virus G protein CX3C motif impairs human airway epithelial and immune cell responses.

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2. Novel recombinant DNA vaccine candidates for human respiratory syncytial virus: Preclinical evaluation of immunogenicity and protection efficiency.

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6. Innate and adaptive cellular phenotypes contributing to pulmonary disease in mice after respiratory syncytial virus immunization and infection.

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7. Soluble F proteins exacerbate pulmonary histopathology after vaccination upon respiratory syncytial virus challenge but not when presented on virus-like particles.

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10. Natural killer cells contribute to enhanced respiratory disease after oil-in-water emulsion adjuvanted vaccination against respiratory syncytial virus and infection.

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