Priming programed Mucosal-Associated Invariant T cells protect against systemic or local bacterial infection

Mucosal-Associated Invariant T (MAIT) cells have potent antibacterial functions. Their protective capacity, in vivo, has been demonstrated in mouse models, particularly of respiratory infections. We now show that during systemic infection of mice with Francisella tularensis Live Vaccine Strain (LVS), MAIT cell expansion was evident in the liver, lungs, kidney, spleen and blood. MAIT cells manifested a polarised Th1-like (termed “MAIT-1”) phenotype and cytokine profile that conferred a critical role in controlling bacterial load. After resolution of the primary infection, the expanded MAIT cells developed to a stable memory-like MAIT-1 cell population, suggesting a basis for vaccination and protection against subsequent challenge. Indeed, a systemic vaccination with synthetic ligand (5-OP-RU) in combination with CpG adjuvant boosted MAIT-1 cells and resulted in enhanced protection against systemic and local infections with F. tularensis and Legionella longbeachae. Our study highlights the potential utility of targeting MAIT cells to combat multiple bacterial pathogens.