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J Virol
. 2025 Feb 3:e0086724.
doi: 10.1128/jvi.00867-24. Online ahead of print. Diversifying T-cell responses: safeguarding against pandemic influenza with mosaic nucleoprotein
Hongtae Park # 1 , Brock Kingstad-Bakke # 1 , Thomas Cleven 1 , Myunghwan Jung 1 , Yoshihiro Kawaoka 1 , M Suresh 1
Affiliations
Pre-existing T-cell responses have been linked to reduced disease severity and better clinical outcomes during the 2009 influenza pandemic and the recent COVID-19 pandemic. We hypothesized that diversifying T-cell responses, particularly targeting conserved viral proteins such as the influenza A virus (IAV) nucleoprotein (NP), could protect against both epidemic and pandemic IAV strains. To test this, we created a mosaic nucleoprotein (MNP) by synthesizing a sequence that maximized the representation of 9-mer epitopes from 7422 NP sequences across human, swine, and avian IAVs. Notably, the MNP sequence showed high homology with the NP of the H5N1 strain affecting dairy cows in the ongoing outbreak. Mucosal immunization with the adjuvanted MNP vaccine induced robust CD8 and CD4 T-cell responses against both known immunodominant and in silico predicted subdominant epitopes. MNP-vaccinated mice challenged with epidemic H1N1 and H3N2 strains, which shared immunodominant CD8 and/or CD4 T-cell epitopes, showed a significant (~4 log) reduction in lung viral load. Importantly, MNP-vaccinated mice challenged with a pandemic H1N1 strain lacking shared immunodominant CD8 or CD4 epitopes exhibited a superior reduction in lung viral load, linked to T-cell responses targeting subdominant epitopes present in both the MNP and pandemic strain NP. These results suggest that a diversified T-cell response induced by the MNP vaccine could provide broad protection against severe disease from both current and emerging IAV strains.
Importance: The World Health Organization (WHO) estimates that seasonal influenza causes 3-5 million cases of severe illness annually. The influenza virus frequently undergoes genetic changes through antigenic drift and antigenic shift, resulting in annual epidemics and occasional pandemics. Consequently, a major public health objective is to develop a universal influenza vaccine that offers broad protection against both current and pandemic influenza A strains. In this study, we designed a nucleoprotein (NP) antigen (termed mosaic NP) comprising antigenic regions found in thousands of influenza viruses, aiming to use it as a vaccine to induce broad anti-influenza T-cell responses. Our findings indicate that the mosaic NP vaccine provided significant protection against seasonal H1N1 and H3N2, as well as the pandemic H1N1 strain, demonstrating its effectiveness across various influenza subtypes. These findings suggest that the mosaic NP is a potential universal influenza vaccine antigen, capable of protecting against diverse strains of influenza viruses.
Keywords: T cell-based vaccines; influenza; mosaic; mucosal immunity; nucleoprotein.
. 2025 Feb 3:e0086724.
doi: 10.1128/jvi.00867-24. Online ahead of print. Diversifying T-cell responses: safeguarding against pandemic influenza with mosaic nucleoprotein
Hongtae Park # 1 , Brock Kingstad-Bakke # 1 , Thomas Cleven 1 , Myunghwan Jung 1 , Yoshihiro Kawaoka 1 , M Suresh 1
Affiliations
- PMID: 39898643
- DOI: 10.1128/jvi.00867-24
Pre-existing T-cell responses have been linked to reduced disease severity and better clinical outcomes during the 2009 influenza pandemic and the recent COVID-19 pandemic. We hypothesized that diversifying T-cell responses, particularly targeting conserved viral proteins such as the influenza A virus (IAV) nucleoprotein (NP), could protect against both epidemic and pandemic IAV strains. To test this, we created a mosaic nucleoprotein (MNP) by synthesizing a sequence that maximized the representation of 9-mer epitopes from 7422 NP sequences across human, swine, and avian IAVs. Notably, the MNP sequence showed high homology with the NP of the H5N1 strain affecting dairy cows in the ongoing outbreak. Mucosal immunization with the adjuvanted MNP vaccine induced robust CD8 and CD4 T-cell responses against both known immunodominant and in silico predicted subdominant epitopes. MNP-vaccinated mice challenged with epidemic H1N1 and H3N2 strains, which shared immunodominant CD8 and/or CD4 T-cell epitopes, showed a significant (~4 log) reduction in lung viral load. Importantly, MNP-vaccinated mice challenged with a pandemic H1N1 strain lacking shared immunodominant CD8 or CD4 epitopes exhibited a superior reduction in lung viral load, linked to T-cell responses targeting subdominant epitopes present in both the MNP and pandemic strain NP. These results suggest that a diversified T-cell response induced by the MNP vaccine could provide broad protection against severe disease from both current and emerging IAV strains.
Importance: The World Health Organization (WHO) estimates that seasonal influenza causes 3-5 million cases of severe illness annually. The influenza virus frequently undergoes genetic changes through antigenic drift and antigenic shift, resulting in annual epidemics and occasional pandemics. Consequently, a major public health objective is to develop a universal influenza vaccine that offers broad protection against both current and pandemic influenza A strains. In this study, we designed a nucleoprotein (NP) antigen (termed mosaic NP) comprising antigenic regions found in thousands of influenza viruses, aiming to use it as a vaccine to induce broad anti-influenza T-cell responses. Our findings indicate that the mosaic NP vaccine provided significant protection against seasonal H1N1 and H3N2, as well as the pandemic H1N1 strain, demonstrating its effectiveness across various influenza subtypes. These findings suggest that the mosaic NP is a potential universal influenza vaccine antigen, capable of protecting against diverse strains of influenza viruses.
Keywords: T cell-based vaccines; influenza; mosaic; mucosal immunity; nucleoprotein.