CD8T cells sustain vaccination-induced immunity against dissemination of contained tuberculosis in immunosuppressed hosts.

About two billion people are latently infected with Mycobacterium tuberculosis (Mtb), which can reside in multiple organs, including the lymphatics. The risk of latent Mtb infection (LTBI) reactivation increases with immunosuppression, such as HIV coinfection, yet the immunological correlates that maintain LTBI remain largely elusive. Using a mouse model of contained lymphatic Mtb infection we dissect the drivers of containment versus reactivation. We show that immunosuppression-induced dissemination of lymphatic Mtb and ensuing progressive disease can be prevented by vaccination with BCG or recombinant BCG even in the absence of CD4T cells. Multi-parameter imaging, spatial transcriptomics and network analysis reveal that anti-CD4-mediated immunosuppression triggers distinct repositioning of non-CD4 immune cells at the edge of TB lesions in cervical lymph nodes. Although B cell numbers increase, they prove dispensable for Mtb containment during CD4T cell loss. Using immune cell-deficient mice, cell depletion and adoptive transfers, we reveal that CD8T cells mediate vaccination-induced prevention of Mtb dissemination in the absence of CD4T cells, informing LTBI management in immunocompromised individuals.