Replication and Immunogenicity of Swine, Equine, and Avian H3 Subtype Influenza Viruses in Mice and Ferrets

Baz, Mariana; Paskel, Myeisha; Matsuoka, Yumiko; Zengel, James; Cheng, Xing; Jin, Hong; Subbarao, Kanta

doi:10.1128/jvi.03520-12

Cited by 26 publications

(34 citation statements)

References 48 publications

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“…These antibodies were not only protective against a panel of H3N2 strains and an H3N8 virus but also provided robust protection against a heterosubtypic challenge with avian H7N1 and H10N7 isolates, demonstrating a breadth that spans both clades of the group 2 HA-expressing viruses. This breadth is important in light of growing concerns about the pandemic potential of H3N2 variant (H3N2v) viruses and H3N8 viruses isolated from New England harbor seals and other zoonotic H3 strains (12,34,38), as well as H4-, H7-, and H10-expressing viruses that infect humans occasionally (11,(39)(40)(41)(42)(43). Importantly, this vaccination strategy also induced high titers of stalk-reactive antibodies against the H7 HA from the emerging Chinese H7N9 virus (10).…”

Section: Discussionmentioning

confidence: 99%

“…Low vaccine efficacy was also observed in the elderly during the 2012-2013 epidemic (caused mostly by H3N2 strains) (8). Furthermore, mismatch-independent vaccine failure in certain populations (9) and the pandemic threat from avian viruses like H7N9 and other zoonotic influenza viruses (10)(11)(12) warrant the development of better, longer-lasting, and broader vaccines.…”

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confidence: 99%

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Hemagglutinin Stalk-Based Universal Vaccine Constructs Protect against Group 2 Influenza A Viruses

Margine

Krammer

Hai

et al. 2013

J Virol

186

161

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f Current influenza virus vaccines contain H1N1 (phylogenetic group 1 hemagglutinin), H3N2 (phylogenetic group 2 hemagglutinin), and influenza B virus components. These vaccines induce good protection against closely matched strains by predominantly eliciting antibodies against the membrane distal globular head domain of their respective viral hemagglutinins. This domain, however, undergoes rapid antigenic drift, allowing the virus to escape neutralizing antibody responses. The membrane proximal stalk domain of the hemagglutinin is much more conserved compared to the head domain. In recent years, a growing collection of antibodies that neutralize a broad range of influenza virus strains and subtypes by binding to this domain has been isolated. Here, we demonstrate that a vaccination strategy based on the stalk domain of the H3 hemagglutinin (group 2) induces in mice broadly neutralizing anti-stalk antibodies that are highly cross-reactive to heterologous H3, H10, H14, H15, and H7 (derived from the novel Chinese H7N9 virus) hemagglutinins. Furthermore, we demonstrate that these antibodies confer broad protection against influenza viruses expressing various group 2 hemagglutinins, including an H7 subtype. Through passive transfer experiments, we show that the protection is mediated mainly by neutralizing antibodies against the stalk domain. Our data suggest that, in mice, a vaccine strategy based on the hemagglutinin stalk domain can protect against viruses expressing divergent group 2 hemagglutinins.

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Hemagglutinin Stalk-Based Universal Vaccine Constructs Protect against Group 2 Influenza A Viruses

Margine

Krammer

Hai

et al. 2013

J Virol

186

161

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“…The H3N2 viruses that we selected circulated during the 1960s (A/HK/68), 1970s (A/PC/73), 1980s (A/LA/87), 1990s (A/WU/ 95), 2000s (A/CA/04), and 2010s (A/TX/12). Sera from ferrets infected with the tl/TX/079/07 virus in a previous study (14) served as a positive control. The results are presented in Fig.…”

Section: Resultsmentioning

confidence: 99%

“…On days 3 and 5 p.c., groups of three ferrets were euthanized, and the NTs and lungs (right middle lobe and the caudal portion of the left cranial lobe) were harvested and stored at Ϫ80°C. We chose these time points based on previous observations in our laboratory that replication of avian wt viruses was detected at high titers in the NTs and lungs of ferrets from days 1 to 5 after infection (14).…”

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confidence: 99%

“…), and lungs and nasal turbinates (NTs) were harvested and stored at Ϫ80°C. We chose these time points based on previous observations that replication of the tl/TX/079/07 and npin/AK/06 wt viruses was detected at moderate to high titers in the lungs of mice from days 2 to 4 after infection (14). Lungs and NTs were weighed and homogenized in L15 medium containing 2ϫ antibiotic-antimycotic (penicillin, streptomycin, and amphotericin B) (Invitrogen-GIBCO) to make 10% and 5% (wt/vol) tissue homogenates, respectively.…”

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confidence: 99%

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A Single Dose of an Avian H3N8 Influenza Virus Vaccine Is Highly Immunogenic and Efficacious against a Recently Emerged Seal Influenza Virus in Mice and Ferrets

Baz

Paskel

Matsuoka

et al. 2015

J Virol

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H3N8 influenza viruses are a commonly found subtype in wild birds, usually causing mild or no disease in infected birds. However, they have crossed the species barrier and have been associated with outbreaks in dogs, pigs, donkeys, and seals and therefore pose a threat to humans. A live attenuated, cold-adapted (ca) H3N8 vaccine virus was generated by reverse genetics using the wild-type (wt) hemagglutinin ( We also analyzed human sera against the tl/TX/079/07 H3N8 avian influenza virus and observed low but detectable antibody reactivity in elderly subjects, suggesting that older H3N2 influenza viruses confer some cross-reactive antibody. The latter observation was confirmed in a ferret study. The safety, immunogenicity, and efficacy of the tl/TX/079/07 ca vaccine in mice and ferrets support further evaluation of this vaccine in humans for use in the event of transmission of an H3N8 avian influenza virus to humans. The human and ferret serology data suggest that a single dose of the vaccine may be sufficient in older subjects. IMPORTANCEAlthough natural infection of humans with an avian H3N8 influenza virus has not yet been reported, this influenza virus subtype has already crossed the species barrier and productively infected mammals. Pandemic preparedness is an important public health priority. Therefore, we generated a live attenuated avian H3N8 vaccine candidate and demonstrated that a single dose of the vaccine was highly immunogenic and protected mice and ferrets against homologous and heterologous H3N8 avian viruses. Influenza is an important disease in humans and animals. Influenza A viruses can cross the species barriers intact or following reassortment and have the potential to cause devastating pandemics in humans (1). Pandemic preparedness for influenza has generally been focused on highly pathogenic H5 and H7 avian influenza viruses. However, it is impossible to predict when and where an influenza pandemic will appear, how severe it will be, and which subtype of influenza will emerge as a pandemic strain. Several influenza viruses bearing novel viral gene segments from an animal source have arisen in humans and animals. An example of such an event that underscores the need to consider all influenza virus subtypes was the emergence of the novel H1N1 influenza virus in 2009 despite the ongoing circulation of seasonal H1N1 viruses (2).Avian influenza viruses (AIV) bearing 16 antigenic subtypes of hemagglutinin (HA) and 9 antigenic subtypes of neuraminidase (NA) have been isolated from waterfowl and shorebirds (3, 4), and genetic evidence of H17N10 and H18N11 viruses has been found in bats (5). H3N8 influenza viruses are commonly found in wild birds but are not associated with disease; however, they have been associated with disease outbreaks in dogs (6), horses (7), pigs (8), donkeys (9), and most recently seals (10). Although there have been no known avian H3N8 human cases to date, infections in other mammalian species highlight the ability of this influenza virus subtype to cross the species ...

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Extending the Breadth of Influenza Vaccines: Status and Prospects for a Universal Vaccine

Fox

Quinn

Subbarao

2018

Drugs

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Despite the widespread use of seasonal influenza vaccines, there is urgent need for a universal influenza vaccine to provide broad, long-term protection. A number of factors underpin this urgency, including threats posed by zoonotic and pandemic influenza A viruses, suboptimal effectiveness of seasonal influenza vaccines, and concerns surrounding the effects of annual vaccination. In this article, we discuss approaches that are being investigated to increase influenza vaccine breadth, which are near-term, readily achievable approaches to increase the range of strains recognized within a subtype, or longer-term more challenging approaches to produce a truly universal influenza vaccine. Adjuvanted and neuraminidase-optimized vaccines are emerging as the most feasible and promising approaches to extend protection to cover a broader range of strains within a subtype. The goal of developing a universal vaccine has also been advanced with the design of immunogenic influenza HA-stem constructs that induce broadly neutralizing antibodies. However, these constructs are not yet sufficiently immunogenic to induce lasting universal immunity in humans. Advances in understanding how T cells mediate protection, and how viruses are packaged, have facilitated the rationale design and delivery of replication-incompetent virus vaccines that induce broad protection mediated by lung-resident memory T cells. While the lack of clear mechanistic correlates of protection, other than haemagglutination-inhibiting antibodies, remains an impediment to further advancing novel influenza vaccines, the pressing need for such a vaccine is supporting development of highly innovative and effective strategies.

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Replication and Immunogenicity of Swine, Equine, and Avian H3 Subtype Influenza Viruses in Mice and Ferrets

Cited by 26 publications

References 48 publications

Hemagglutinin Stalk-Based Universal Vaccine Constructs Protect against Group 2 Influenza A Viruses

Hemagglutinin Stalk-Based Universal Vaccine Constructs Protect against Group 2 Influenza A Viruses

A Single Dose of an Avian H3N8 Influenza Virus Vaccine Is Highly Immunogenic and Efficacious against a Recently Emerged Seal Influenza Virus in Mice and Ferrets

Extending the Breadth of Influenza Vaccines: Status and Prospects for a Universal Vaccine

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