Mycobacterium tuberculosis, the bacterium that causes tuberculosis (TB), results in more human mortality than any other single pathogen, in part because of the lack of an effective vaccine. Although T cells are essential for immunity to TB, the mechanisms that provide protective immunity are poorly understood. In this Review, we describe current gaps in our knowledge about T cell-mediated immune responses to M. tuberculosis and discuss how recent technologies, including multiphoton intravital microscopy, spatial multiomics and high-resolution in vivo analyses of cell-cell interactions, may be used to gain insights that can inform the design of T cell-targeted TB vaccines.
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