Rupsha Fraser, Aurelio Orta-Resendiz, Alexander Mazein, David H Dockrell
Trends in molecular medicine 2023 AprSARS-CoV-2 vaccination significantly reduces morbidity and mortality, but has less impact on viral transmission rates, thus aiding viral evolution, and the longevity of vaccine-induced immunity rapidly declines. Immune responses in respiratory tract mucosal tissues are crucial for early control of infection, and can generate long-term antigen-specific protection with prompt recall responses. However, currently approved SARS-CoV-2 vaccines are not amenable to adequate respiratory mucosal delivery, particularly in the upper airways, which could account for the high vaccine breakthrough infection rates and limited duration of vaccine-mediated protection. In view of these drawbacks, we outline a strategy that has the potential to enhance both the efficacy and durability of existing SARS-CoV-2 vaccines, by inducing robust memory responses in the upper respiratory tract (URT) mucosa. Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.
Rupsha Fraser, Aurelio Orta-Resendiz, Alexander Mazein, David H Dockrell. Upper respiratory tract mucosal immunity for SARS-CoV-2 vaccines. Trends in molecular medicine. 2023 Apr;29(4):255-267
PMID: 36764906
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