Influenza Infection in the Infant Mouse

Reuman, Peter D.; Ayoub, Elía M.; Small, Parker A.

doi:10.1203/00006450-198305000-00006

Cited by 7 publications

(5 citation statements)

References 8 publications

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“…It has previously been demonstrated that acquisition of influenza-specific antibody in neonatal mice is predominantly mediated by breast-feeding [23]. We hypothesized that enhanced protection of pups of dams receiving iPR8+Advax could likewise be due to enhanced breast milk transfer of maternal IgG.…”

Section: Resultsmentioning

confidence: 99%

“…Maternal antibody acquired by pups through transplacental transfer or breast milk provides a critical mechanism of protection against infection during the period of neonatal immune immaturity [22, 23]. We wished, therefore, to see whether the addition of Advax adjuvant to vaccine administered to pregnant mothers could enhance protection of their unimmunized pups.…”

Section: Resultsmentioning

confidence: 99%

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A single immunization with inactivated H1N1 influenza vaccine formulated with delta inulin adjuvant (Advax™) overcomes pregnancy-associated immune suppression and enhances passive neonatal protection

Honda‐Okubo

Kolpe

et al. 2014

Vaccine

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Pregnant women and neonates represent high-risk groups for influenza infection, and in general have suppressed responses to standard influenza vaccines due to pregnancy-associated immune suppression and immune system immaturity, respectively. We therefore wished to test whether addition of Advax™, a polysaccharide adjuvant based on delta inulin, to an inactivated influenza vaccine (A/H1N1/PR8) administered during pregnancy would safely enhance vaccine immunogenicity and thereby provide improved protection of pregnant mothers and also potentially their newborns. Pregnant mice received a single intramuscular injection of β-propiolactone inactivated H1N1 antigen alone or with Advax adjuvant. Pregnant dams receiving Advax adjuvanted vaccine exhibited significantly increased serum and breast milk anti-influenza IgG titers. This translated into higher serum anti-influenza IgG titers in the pups of these dams. Complete protection was seen in pups of dams that received Advax-adjuvanted vaccine whereas no survival was seen in pups of control mothers or mothers immunized with unadjuvanted vaccine. Cross-fostering studies confirmed that enhanced protection of pups of dams that received Advax-adjuvanted vaccine was mediated by enhanced transfer of maternal IgG to the pups via breast-feeding. The delta inulin adjuvant was not associated with any reproductive or developmental adverse effects. This study shows that Advax adjuvant was safe when administered with influenza vaccine during pregnancy and provided protection of pups not seen with administration of unadjuvanted vaccine, via enhanced breast milk transfer of anti-influenza antibodies.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

A single immunization with inactivated H1N1 influenza vaccine formulated with delta inulin adjuvant (Advax™) overcomes pregnancy-associated immune suppression and enhances passive neonatal protection

Honda‐Okubo

Kolpe

et al. 2014

Vaccine

View full text Add to dashboard Cite

show abstract

“…In a mouse model using 3 day old animals, 1 of 5 animals exhibited positive antibody titers at 13 days postinfection compared to 5 of 5 adults [36]. The vast majority of additional data available in relation to influenza-specific immune responses in infants is derived from studies of vaccination in humans.…”

Section: Discussionmentioning

confidence: 99%

Nonhuman primate infants have an impaired respiratory but not systemic IgG antibody response following influenza virus infection

et al. 2015

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Respiratory infection of young infants results in increased morbidity and mortality compared to infection of adults. In spite of the significance of this health issue, our understanding of the immune response elicited in infants, especially in the respiratory tract is highly limited. We developed a nonhuman primate model to probe the virus-specific antibody response in infants following infection with influenza virus. Infection of infants resulted in more pulmonary damage and higher viral loads compared to adults. While the systemic IgG antibody response was similar in infant and adult animals, the response in the upper respiratory tract of the infant was compromised. This lower response was associated with an increased prevalence of Treg cells and low levels of BALT. These data suggest a defect in the ability to produce effective virus-specific antibody responses at the local infection site is a contributor to increased pulmonary damage in the at-risk infant population.

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“…Virus shedding persisted on day 7 in 2 of 10, 3 of 11, and 3 of 9 animals infected with the H3N2, HlNl, and CR29 strains, respectively. Likewise, in infant and adult mice infected with another H3N2 strain (A/PC/l/73), peak nasal wash virus titers were 103.5 50% egg infective doses and virus shedding ceased before day 11 (29). Although virus titers from nasal turbunate homogenates were higher in infant rats infected with the H3N2, HIN1, and CR29 strains (3), Reuman et al found that virus titers were significantly lower in nasal homogenates than in nasal washes performed on the same animals (29).…”

Section: Downloaded Frommentioning

confidence: 97%

Different virulence of influenza A virus strains and susceptibility to pneumococcal otitis media in chinchillas

Giebink¹,

Wright²

1983

Infect Immun

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We have previously shown that chinchillas infected with a multiply passaged laboratory strain of influenza A/NWS/33 (HlNl) develop negative middle-ear pressure; polymorphonuclear leukocyte oxidative, bactericidal, and chemotactic dysfunction; and increased susceptibility to pneumococcal otitis media. Because influenza A virus strains show different virulence in humans, three such strains were compared in the chinchilla model. Negative middle-ear pressure and tympanic membrane inflammation developed significantly more often in chinchillas infected with wild-type H3N2 virus than with either wild-type HlNl virus or an attenuated, cold-adapted H3N2 vaccine strain, CR29. Marked depression in polymorphonuclear leukocyte chemiluminescent activity also developed significantly more often in H3N2 infected animals than in HlNlor CR29-infected animals. Intranasal challenge of influenza virus-infected animals with type 7 Streptococcus pneumoniae resulted in a significantly greater occurrence of pneumococcal otitis media in H3N2-infected animals than in HlNl-, CR29-, or non-influenza-infected control animals. Clearance of pneumococci from nasal washings of animals infected with wild-type H3N2 was significantly delayed in comparison with the other groups. Thus, the previously demonstrated increased susceptibility to otitis media among children infected with H3N2 influenza virus may relate to the capacity of this strain to induce negative middle-ear pressure, polymorphonuclear leukocyte dysfunction, and alteration in the mucosal clearance of pneumococci.

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Influenza Infection in the Infant Mouse

Cited by 7 publications

References 8 publications

A single immunization with inactivated H1N1 influenza vaccine formulated with delta inulin adjuvant (Advax™) overcomes pregnancy-associated immune suppression and enhances passive neonatal protection

A single immunization with inactivated H1N1 influenza vaccine formulated with delta inulin adjuvant (Advax™) overcomes pregnancy-associated immune suppression and enhances passive neonatal protection

Nonhuman primate infants have an impaired respiratory but not systemic IgG antibody response following influenza virus infection

Different virulence of influenza A virus strains and susceptibility to pneumococcal otitis media in chinchillas

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