Route of self-amplifying mRNA vaccination modulates the establishment of pulmonary resident memory CD8 and CD4 T cells

Author:

Künzli MarcoORCID,O’Flanagan Stephen D.ORCID,LaRue MadeleineORCID,Talukder PoulamiORCID,Dileepan ThamotharampillaiORCID,Soerens Andrew G.ORCID,Quarnstrom Clare F.,Wijeyesinghe SathiORCID,Ye Yanqi,McPartlan Justine,Mitchell Jason S.,Mandl Christian W.,Vile RichardORCID,Jenkins Marc K.ORCID,Ahmed RafiORCID,Vezys VaivaORCID,Chahal Jasdave,Masopust DavidORCID

Abstract

AbstractRespiratory tract resident memory T cells (Trm), typically generated by local vaccination or infection, can accelerate control of pulmonary infections that evade neutralizing antibody. It is unknown whether mRNA vaccination establishes respiratory Trm. We generated a self-amplifying mRNA vaccine encoding the influenza A virus nucleoprotein that is encapsulated in modified dendron-based nanoparticles. Here we report how routes of immunization in mice, including contralateral versus ipsilateral intramuscular boosts, or intravenous and intranasal routes, influence influenza-specific cell-mediated and humoral immunity. Parabiotic surgeries revealed that intramuscular immunization was sufficient to establish CD8 Trm in lung and draining lymph node. Contralateral, compared to ipsilateral, intramuscular boosting broadened the distribution of LN Trm and T follicular helper cells, but slightly diminished resulting levels of serum antibody. Intranasal mRNA delivery established modest circulating CD8 and CD4 T cell memory, but augmented distribution to the respiratory mucosa. Of note, combining intramuscular immunizations with an intranasal mRNA boost achieved high levels of both circulating T cell memory and lung Trm. Thus, routes of mRNA vaccination influence humoral and cell-mediated immunity, and intramuscular prime-boosting establishes lung Trm that can be further enhanced by an additional intranasal immunization.

Publisher

Cold Spring Harbor Laboratory

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