Abstract
Lung resident memory T cells (TRM) characterized by selective expression of mucosal integrins VLA-1 (α1β1) and CD103 (αEβ7) are generated following primary respiratory viral infections. Despite recent progress, the generation of lung TRM and the role of mucosal integrins following viral vector respiratory mucosal immunization still remains poorly understood. Here by using a replication-defective viral vector tuberculosis vaccine, we show that lung Ag-specific CD8 T cells express both VLA-1 and CD103 following respiratory mucosal immunization. However, VLA-1 and CD103 are acquired in differential tissue sites with the former acquired during T cell priming in the draining lymph nodes and the latter acquired after T cells entered the lung. Once in the lung, Ag-specific CD8 T cells continue to express VLA-1 at high levels through the effector/expansion, contraction, and memory phases of T cell responses. Using a functional VLA-1 blocking mAb, we show that VLA-1 is not required for trafficking of these cells to the lung, but it negatively regulates them in the contraction phase. Furthermore, VLA-1 plays a negligible role in the maintenance of these cells in the lung. Our study provides new information on vaccine-inducible lung TRM and shall help develop effective viral vector respiratory mucosal tuberculosis vaccination strategies.
Highlights
Immunological memory acquired following natural infection or immunization has a critical role in host defence against infectious diseases
We found that the vast majority of Ag-specific CD8 T cells induced by respiratory mucosal immunization were bona fide lung tissue T cells
To determine the unique properties of respiratory mucosal immunization-induced (i.n.) lung tissue Ag-specific memory CD8 T cells, we compared gene expression of these cells with gene profile in parenteral AdAg85A immunization-induced (i.m.) intravascular Ag-specific CD8 T cells at 4 weeks post-immunization and in naïve CD8 T cells. Such comparisons help identify the genes commonly induced by both routes of immunization and those uniquely expressed in respiratory mucosal immunization-induced lung Ag-specific CD8 T cells
Summary
Immunological memory acquired following natural infection or immunization has a critical role in host defence against infectious diseases. Among the most promising respiratory viral vector vaccines are the recombinant human or chimpanzee adenovirus, MVA and sendai virus expressing selected immunodominant microbial antigens shown to be protective against mucosal infections including tuberculosis (TB), RSV, HIV or herpes virus[19,20,21,22,23,24,25]. These viral vectors are designed to be replication-defective for improved safety and are yet capable of infection to induce long-lasting T cell responses[26]. We found that VLA-1 is dispensable for TRM maintenance during the memory phase
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