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Reduction of Influenza A Virus Transmission in Mice by a Universal Intranasal Vaccine Candidate is Long-Lasting and Does Not Require Antibodies.

Graeme E PriceChia-Yun LoJulia A MisplonSuzanne L Epstein
Published in: Journal of virology (2022)
Vaccination against influenza virus infection can protect the vaccinee and also reduce transmission to contacts. Not all types of vaccines induce sterilizing immunity via neutralizing antibodies; some instead permit low-level, transient infection. There has been concern that infection-permissive influenza vaccines may allow continued spread in the community despite minimizing symptoms in the vaccinee. We have explored that issue for a universal influenza vaccine candidate that protects recipients by inducing T cell responses and nonneutralizing antibodies. Using a mouse model, we have shown previously that an adenoviral vectored vaccine expressing nucleoprotein (NP) and matrix 2 (M2) provides broad protection against diverse strains and subtypes of influenza A viruses and reduces transmission to contacts in an antigen-specific manner. Here, we use this mouse model to further explore the mechanism and features of that reduction in transmission. Passive immunization did not reduce transmission from infected donors to naive contact animals to whom passive serum had been transferred. Vaccination of antibody-deficient mIgTg-J H D -/- mice, which have intact T cell responses and antigen presentation, reduced transmission in an antigen-specific manner, despite the presence of some virus in the lungs and nasal wash, pointing to a role for cellular immunity. Vaccination at ages ranging from 8 to 60 weeks was able to achieve reduction in transmission. Finally, the immune-mediated reduction in transmission persisted for at least a year after a single-dose intranasal vaccination. Thus, this infection-permissive vaccine reduces virus transmission in a long-lasting manner that does not require antibodies. IMPORTANCE Universal influenza virus vaccines targeting antigens conserved among influenza A virus strains can protect from severe disease but do not necessarily prevent infection. Despite allowing low-level infection, intranasal immunization with adenovirus vectors expressing the conserved antigens influenza nucleoprotein (A/NP) and M2 reduces influenza virus transmission from vaccinated to unvaccinated contact mice. Here, we show that antibodies are not required for this transmission reduction, suggesting a role for T cells. We also show that transmission blocking could be achieved in recipients of different ages and remained effective for at least a year following a single-dose vaccination. Such vaccines could have major public health impacts by limiting viral transmission in the community.
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