Cellular immune correlates of protection against symptomatic pandemic influenza

Sridhar, Saranya; Begom, Shaima; Bermingham, Alison; Höschler, Katja; Adamson, Walt E; Carman, William F.; Bean, Thomas; Barclay, William; Deeks, Jonathan J; Lalvani, Ajit

doi:10.1038/nm.3350

Cited by 794 publications

(810 citation statements)

References 54 publications

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“…These data, highlight and confirm that T cells confer a degree of protection against the clinical symptoms of influenza A virus infection. Most commercially available influenza vaccines primarily induce strain-specific antibodies, however it has been demonstrated that heterosubtypic T cells can confer broad-spectrum protection (32)(33)(34). A correlation between IAV-directed T cells and reduced viral shedding with less severe illness in humans has been demonstrated in a number of clinical studies (32,33,35).…”

Section: Prime-boost Vaccinated Mice Intranasally Challenged With DIVmentioning

confidence: 99%

“…Most commercially available influenza vaccines primarily induce strain-specific antibodies, however it has been demonstrated that heterosubtypic T cells can confer broad-spectrum protection (32)(33)(34). A correlation between IAV-directed T cells and reduced viral shedding with less severe illness in humans has been demonstrated in a number of clinical studies (32,33,35). It has also been demonstrated that protective levels of NP-specific T cell responses are found in 43% of the adult population (36).…”

Section: Prime-boost Vaccinated Mice Intranasally Challenged With DIVmentioning

confidence: 99%

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Novel Bivalent Viral-Vectored Vaccines Induce Potent Humoral and Cellular Immune Responses Conferring Protection against Stringent Influenza A Virus Challenge

Chinnakannan

Mullarkey

Ulaszewska

et al. 2017

The Journal of Immunology

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Abstract:Seasonal influenza viruses (IAV) are a common cause of acute respiratory illness worldwide and generate a significant socio-economic burden. IAV rapidly mutate, necessitating annual vaccine reformulation as traditional vaccines do not typically induce broad-spectrum immunity. In addition to seasonal infections, emerging pandemic influenza viruses present a continued threat to global public health. Pandemic influenza viruses have consistently higher attack rates and are typically associated with greater mortality as compared to seasonal strains. Ongoing strategies to improve vaccine efficacy typically focus on providing broad-spectrum immunity, and while both B and T cells can mediate heterosubtypic responses, typical vaccine development will augment either humoral or cellular immunity. However, multipronged approaches, targeting several antigens, may limit the generation of viral escape mutants. There are few vaccine platforms that can deliver multiple antigens and generate robust cellular and humoral immunity. In this work, we describe a novel vaccination strategy, tested pre-clinically in mice, for the delivery of novel bivalent viral-vectored vaccines. Here, we show this strategy elicits potent T cell responses toward highly conserved internal antigens, whilst simultaneously inducing high levels of antibodies towards hemagglutinin (HA). Importantly, these humoral responses generate longlived plasma cells and generate antibodies capable of neutralising variant HA-expressing pseudotyped lentiviruses. Significantly, these novel viral-vectored vaccines induce strong immune responses capable of conferring protection in a stringent influenza A virus challenge.Thus, this vaccination regimen induces lasting efficacy toward influenza. Importantly, the simultaneous delivery of dual antigens may alleviate the selective pressure thought to potentiate antigenic diversity in avian influenza viruses.

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Section: Prime-boost Vaccinated Mice Intranasally Challenged With DIVmentioning

confidence: 99%

Section: Prime-boost Vaccinated Mice Intranasally Challenged With DIVmentioning

confidence: 99%

Novel Bivalent Viral-Vectored Vaccines Induce Potent Humoral and Cellular Immune Responses Conferring Protection against Stringent Influenza A Virus Challenge

Chinnakannan

Mullarkey

Ulaszewska

et al. 2017

The Journal of Immunology

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“…This cross-reactive immunity may be what protects many adults from severe illness during a pandemic. 43 Between 2008 and 2014, uptake of LAIV in US 2-8 year olds increased from 20.1% to 38%. 44 One suggestion is that VE observations in the US are a result of recurrent exposure to LAIV over a prolonged time.…”

Section: (Ii)prior Vaccination and Immunitymentioning

confidence: 99%

Urgent challenges in implementing live attenuated influenza vaccine

Singanayagam

Zambon

Lalvani

et al. 2018

The Lancet Infectious Diseases

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SummaryConflicting reports have emerged about the effectiveness of the live attenuated influenza vaccine (LAIV). LAIV appears to be protecting particularly poorly against currently circulating H1N1 viruses that are derived from the 2009 pandemic H1N1 (pH1N1) viruses. During the 2015/16 influenza season, when pH1N1 was the predominant virus, studies from the United States (US) reported a complete lack of effectiveness of LAIV in children. This led to a critical decision in the US to recommend that LAIV not be used in 2016/17 and to switch to the inactivated influenza vaccine. Other countries, including the UK, Canada and Finland, have continued to recommend use of LAIV. This policy divergence and uncertainty has far reaching implications for the entire global community, given the importance of LAIV production capability for pandemic preparedness. In this Personal View, we discuss possible explanations for the observed reduced effectiveness of LAIV and highlight underpinning scientific questions. Further research to understand the reasons for these observations is essential to enable informed public health policy and commercial decisions about vaccine production and development in coming years. 3 IntroductionInfluenza vaccination remains the main strategy to control the burden of seasonal influenza disease that affects 5-10% of adults and 20-30% of children, resulting in 250,000-500,000 deaths worldwide each year. 1,2 In the US, 140 million doses of vaccine are distributed each year and vaccination is estimated to prevent nearly a quarter of predicted influenza-associated deaths. 3 Vaccination is also the primary public health response to a global influenza pandemic.Influenza vaccines contain a mixture of three or four components designed to protect against the different viruses that circulate contemporaneously as seasonal influenza viruses. Currently, these are two influenza A viruses (H1N1 and H3N2 subtypes) and two influenza B viruses (Victoria and Yamagata lineages). Vaccine components are reviewed and updated regularly by the WHO in line with observed antigenic drift of influenza viruses.The traditional inactivated influenza vaccine (IIV) was introduced in the 1940s. IIV is administered by intramuscular/intradermal injection, is licensed for use in all ages and has a good safety record. However, effectiveness rates vary, averaging around 50-60%. 4,5 More recently, live attenuated influenza vaccine (LAIV) was demonstrated to have greater efficacy than IIV in children, with absolute efficacy rates of 75-80%. [6][7][8] Internal genes of LAIV viruses are derived from a cold-adapted, attenuated strain of virus, either Ann Arbor/1960 (from the US) or Leningrad/1957 (from Russia). Haemagglutinin (HA) and neuraminidase (NA) surface antigens are engineered to be representative of currently circulating strains. LAIV is nasally administered and vaccine viruses replicate only in the air-cooled environment of the human upper respiratory tract. This results in a mild and self-limiting infection; virus cannot replicate at t...

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“…8,9 As far as T lymphocyte responses are concerned, several studies have shown that human CD4 C and CD8 C T cell responses typically cross-react to multiple influenza strains and subtypes, and mainly target internal components of the virus, [10][11][12] and that both CD4 C and CD8 C T cells may independently protect humans from infection or disease. 13,14 Evidence from elderly subjects, in whom the antibody response is quantitatively poor compared to adults, 15 suggests that CD4 C and CD8 C T cell responses may correlate better with protection. [16][17][18] Studies focusing on identifying early predictors of correlates of protection following infection or vaccination have identified an array of other molecular signatures.…”

Section: Introductionmentioning

confidence: 99%

Cell culture-based influenza vaccines: A necessary and indispensable investment for the future

Hegde

2015

Human Vaccines & Immunotherapeutics

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Cellular immune correlates of protection against symptomatic pandemic influenza

Cited by 794 publications

References 54 publications

Novel Bivalent Viral-Vectored Vaccines Induce Potent Humoral and Cellular Immune Responses Conferring Protection against Stringent Influenza A Virus Challenge

Novel Bivalent Viral-Vectored Vaccines Induce Potent Humoral and Cellular Immune Responses Conferring Protection against Stringent Influenza A Virus Challenge

Urgent challenges in implementing live attenuated influenza vaccine

Cell culture-based influenza vaccines: A necessary and indispensable investment for the future

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