Bao‐Zhong Wang scite author profile

Hepatic natural killer (NK) cells mediate antigen (Ag)-specific contact hypersensitivity (CHS) in T-cell and B-cell deficient mice. We now report that hepatic, but not splenic or naïve NK cells also develop specific memory to vaccines containing Ags from influenza, vesicular stomatitis virus (VSV) or human immunodeficiency virus-1 (HIV). Adoptive transfer of virus-sensitized NK cells to naïve recipients enhanced the animals' survival upon lethal challenge with the sensitizing virus, but not a different virus. NK cell memory to haptens and viruses depended upon CXCR6, a chemokine receptor on hepatic NK cells that was required for memory NK cell persistence but not for Ag recognition. Hence, hepatic NK-cells can develop adaptive immunity to structurally diverse Ags, an activity that requires NK-cell-expressed CXCR6.

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Double-layered protein nanoparticles induce broad protection against divergent influenza A viruses

Deng

et al. 2018

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Current influenza vaccines provide limited protection against circulating influenza A viruses. A universal influenza vaccine will eliminate the intrinsic limitations of the seasonal flu vaccines. Here we report methodology to generate double-layered protein nanoparticles as a universal influenza vaccine. Layered nanoparticles are fabricated by desolvating tetrameric M2e into protein nanoparticle cores and coating these cores by crosslinking headless HAs. Representative headless HAs of two HA phylogenetic groups are constructed and purified. Vaccinations with the resulting protein nanoparticles in mice induces robust long-lasting immunity, fully protecting the mice against challenges by divergent influenza A viruses of the same group or both groups. The results demonstrate the importance of incorporating both structure-stabilized HA stalk domains and M2e into a universal influenza vaccine to improve its protective potency and breadth. These potent disassemblable protein nanoparticles indicate a wide application in protein drug delivery and controlled release.

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Incorporation of Membrane-Anchored Flagellin into Influenza Virus-Like Particles Enhances the Breadth of Immune Responses

Wang

Quan

Kang

et al. 2008

J Virol

122

178

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Enhanced Immunogenicity of Stabilized Trimeric Soluble Influenza Hemagglutinin

et al. 2010

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BackgroundThe recent swine-origin H1N1 pandemic illustrates the need to develop improved procedures for rapid production of influenza vaccines. One alternative to the current egg-based manufacture of influenza vaccine is to produce a hemagglutinin (HA) subunit vaccine using a recombinant expression system with the potential for high protein yields, ease of cloning new antigenic variants, and an established safety record in humans.Methodology/Principal FindingsWe generated a soluble HA (sHA), derived from the H3N2 virus A/Aichi/2/68, modified at the C-terminus with a GCN4pII trimerization repeat to stabilize the native trimeric structure of HA. When expressed in the baculovirus system, the modified sHA formed native trimers. In contrast, the unmodified sHA was found to present epitopes recognized by a low-pH conformation specific monoclonal antibody. We found that mice primed and boosted with 3 µg of trimeric sHA in the absence of adjuvants had significantly higher IgG and HAI titers than mice that received the unmodified sHA. This correlated with an increased survival and reduced body weight loss following lethal challenge with mouse-adapted A/Aichi/2/68 virus. In addition, mice receiving a single vaccination of the trimeric sHA in the absence of adjuvants had improved survival and body weight loss compared to mice vaccinated with the unmodified sHA.Conclusions/SignificanceOur data indicate that the recombinant trimeric sHA presents native trimeric epitopes while the unmodified sHA presents epitopes not exposed in the native HA molecule. The epitopes presented in the unmodified sHA constitute a “silent face” which may skew the antibody response to epitopes not accessible in live virus at neutral pH. The results demonstrate that the trimeric sHA is a more effective influenza vaccine candidate and emphasize the importance of structure-based antigen design in improving recombinant HA vaccines.

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Influenza Virus-Like Particles Containing M2 Induce Broadly Cross Protective Immunity

et al. 2011

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BackgroundCurrent influenza vaccines based on the hemagglutinin protein are strain specific and do not provide good protection against drifted viruses or emergence of new pandemic strains. An influenza vaccine that can confer cross-protection against antigenically different influenza A strains is highly desirable for improving public health.Methodology/Principal FindingsTo develop a cross protective vaccine, we generated influenza virus-like particles containing the highly conserved M2 protein in a membrane-anchored form (M2 VLPs), and investigated their immunogenicity and breadth of cross protection. Immunization of mice with M2 VLPs induced anti-M2 antibodies binding to virions of various strains, M2 specific T cell responses, and conferred long-lasting cross protection against heterologous and heterosubtypic influenza viruses. M2 immune sera were found to play an important role in providing cross protection against heterosubtypic virus and an antigenically distinct 2009 pandemic H1N1 virus, and depletion of dendritic and macrophage cells abolished this cross protection, providing new insight into cross-protective immune mechanisms.Conclusions/SignificanceThese results suggest that presenting M2 on VLPs in a membrane-anchored form is a promising approach for developing broadly cross protective influenza vaccines.

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Bao‐Zhong Wang

Critical role for the chemokine receptor CXCR6 in NK cell–mediated antigen-specific memory of haptens and viruses

Double-layered protein nanoparticles induce broad protection against divergent influenza A viruses

Incorporation of Membrane-Anchored Flagellin into Influenza Virus-Like Particles Enhances the Breadth of Immune Responses

Enhanced Immunogenicity of Stabilized Trimeric Soluble Influenza Hemagglutinin

Influenza Virus-Like Particles Containing M2 Induce Broadly Cross Protective Immunity

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