Intranasal COVID-19 vaccine induces respiratory memory T cells and protects K18-hACE mice against SARS-CoV-2 infection.
Béré K DialloCaitlín Ní ChasaideTing Y WongPauline SchmittKatherine S LeeKelly L WeaverOlivia MillerMelissa CooperSeyed D JazayeriFrederick Heath DamronKingston H G MillsPublished in: NPJ vaccines (2023)
Current COVID-19 vaccines prevent severe disease, but do not induce mucosal immunity or prevent infection with SARS-CoV-2, especially with recent variants. Furthermore, serum antibody responses wane soon after immunization. We assessed the immunogenicity and protective efficacy of an experimental COVID-19 vaccine based on the SARS-CoV-2 Spike trimer formulated with a novel adjuvant LP-GMP, comprising TLR2 and STING agonists. We demonstrated that immunization of mice twice by the intranasal (i.n.) route or by heterologous intramuscular (i.m.) prime and i.n. boost with the Spike-LP-GMP vaccine generated potent Spike-specific IgG, IgA and tissue-resident memory (T RM ) T cells in the lungs and nasal mucosa that persisted for at least 3 months. Furthermore, Spike-LP-GMP vaccine delivered by i.n./i.n., i.m./i.n., or i.m./i.m. routes protected human ACE-2 transgenic mice against respiratory infection and COVID-19-like disease following lethal challenge with ancestral or Delta strains of SARS-CoV-2. Our findings underscore the potential for nasal vaccines in preventing infection with SARS-CoV-2 and other respiratory pathogen.
Keyphrases
- early onset
- sars cov
- respiratory syndrome coronavirus
- coronavirus disease
- endothelial cells
- type diabetes
- inflammatory response
- toll like receptor
- working memory
- early stage
- metabolic syndrome
- respiratory tract
- escherichia coli
- quality improvement
- high fat diet induced
- patient safety
- dna methylation
- risk assessment
- pseudomonas aeruginosa
- staphylococcus aureus
- chronic rhinosinusitis
- climate change
- candida albicans
- insulin resistance
- copy number