Self-adjuvanting nanovaccines boost lung-resident CD4 + T cell immune responses in BCG-primed mice.
Megan A FilesKubra F NaqviTais B SaitoTara M CloverJai S RudraJanice J EndsleyPublished in: NPJ vaccines (2022)
Heterologous vaccine regimens could extend waning protection in the global population immunized with Mycobacterium bovis Bacille Calmette-Guerin (BCG). We demonstrate that pulmonary delivery of peptide nanofibers (PNFs) bearing an Ag85B CD4 + T cell epitope increased the frequency of antigen-specific T cells in BCG-primed mice, including heterogenous populations with tissue resident memory (Trm) and effector memory (Tem) phenotype, and functional cytokine recall. Adoptive transfer of dendritic cells pulsed with Ag85B-bearing PNFs further expanded the frequency and functional repertoire of memory CD4 + T cells. Transcriptomic analysis suggested that the adjuvanticity of peptide nanofibers is, in part, due to the release of damage-associated molecular patterns. A single boost with monovalent Ag85B PNF in BCG-primed mice did not reduce lung bacterial burden compared to BCG alone following aerosol Mtb challenge. These findings support the need for novel BCG booster strategies that activate pools of Trm cells with potentially diverse localization, trafficking, and immune function.
Keyphrases
- dendritic cells
- immune response
- high fat diet induced
- working memory
- quantum dots
- mycobacterium tuberculosis
- patient safety
- induced apoptosis
- highly efficient
- quality improvement
- regulatory t cells
- pulmonary hypertension
- cell therapy
- cell cycle arrest
- wild type
- risk factors
- insulin resistance
- adipose tissue
- pulmonary tuberculosis
- cell death
- mesenchymal stem cells
- single molecule
- endoplasmic reticulum stress