Raelene M. McKeon scite author profile

Secondary bacterial pneumonia frequently claimed the lives of victims during the devastating 1918 influenza A virus pandemic. Little is known about the viral factors contributing to the lethality of the 1918 pandemic. Here we show that expression of the viral accessory protein PB1-F2 enhances inflammation during primary viral infection of mice and increases both the frequency and severity of secondary bacterial pneumonia. The priming effect of PB1-F2 on bacterial pneumonia could be recapitulated in mice by intranasal delivery of a synthetic peptide derived from the C-terminal portion of the PB1-F2. Relative to its isogenic parent, an influenza virus engineered to express a PB1-F2 with coding changes matching the 1918 pandemic strain was more virulent in mice, induced more pulmonary immunopathology, and led to more severe secondary bacterial pneumonia. These findings help explain both the unparalleled virulence of the 1918 strain and the high incidence of fatal pneumonia during the pandemic.

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Distinct Contributions of Vaccine-Induced Immunoglobulin G1 (IgG1) and IgG2a Antibodies to Protective Immunity against Influenza

Huber

McKeon

Brackin

et al. 2006

Clin Vaccine Immunol

273

257

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Vaccination represents the most effective form of protection against influenza infection. While neutralizing antibodies are typically measured as a correlate of vaccine-induced protective immunity against influenza, nonneutralizing antibodies may contribute to protection or amelioration of disease. The goal of this study was to dissect the individual contributions of the immunoglobulin G1 (IgG1) and IgG2a antibody isotypes to vaccine-induced immunity against influenza virus. To accomplish this, we utilized an influenza vaccine regimen that selectively enhanced IgG1 or IgG2a antibodies by using either DNA or viral replicon particle (VRP) vectors expressing influenza virus hemagglutinin (HA) (HA-DNA or HA-VRP, respectively). After HA-DNA vaccination, neutralizing antibodies were detected by both in vitro (microneutralization) and in vivo (lung viral titer) methods and were associated with increased IgG1 expression by enzyme-linked immunosorbent assay (ELISA). Vaccination with HA-VRP did not strongly stimulate either neutralizing or IgG1 antibodies but did induce IgG2a antibodies. Expression of IgG2a antibodies in this context correlated with clearance of virus and increased protection against lethal influenza challenge. Increased induction of both antibody isotypes as measured by ELISA was a better correlate for vaccine efficacy than neutralization alone. This study details separate but important roles for both IgG1 and IgG2a expression in vaccination against influenza and argues for the development of vaccine regimens that stimulate and measure expression of both antibody isotypes.

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Melatonin induction of filamentous structures in non-neuronal cells that is dependent on expression of the human mt1 melatonin receptor

Witt‐Enderby

MacKenzie

McKeon

et al. 2000

Cell Motil. Cytoskeleton

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Raelene M. McKeon

Expression of the 1918 Influenza A Virus PB1-F2 Enhances the Pathogenesis of Viral and Secondary Bacterial Pneumonia

Distinct Contributions of Vaccine-Induced Immunoglobulin G1 (IgG1) and IgG2a Antibodies to Protective Immunity against Influenza

Melatonin induction of filamentous structures in non-neuronal cells that is dependent on expression of the human mt1 melatonin receptor

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