Innate immune responses to Mycobacterium tuberculosis infection : How extracellular traps and trained immunity can restrict bacterial growth.

Tuberculosis (TB) is an infectious disease caused by the bacterium Mycobacterium tuberculosis, and the cause of 1.5 million deaths in 2018. During a pulmonary TB infection, the bacterium reaches the lungs and is phagocytosed by cells of the innate immune system, primarily macrophages. The macrophages are either able to eradicate the bacteria or the bacteria start to replicate, and the following immune response leads to the formation of a large cluster of different cell types called a granuloma. In the granuloma the mycobacteria are contained in a latent infection, or they can start to replicate causing rupture of the granuloma and spread of the disease. Neutrophils are also innate immune cells that are rapidly recruited to the site of infection. They are phagocytes, but they also exert extracellular effector mechanisms by their release of microbicidal granule proteins, reactive oxygen species and neutrophil extracellular traps. M. tuberculosis has co-evolved and adapted to the human host making it ingenious at exploiting the human immune response, promoting its survival and replication in human host cells. The human immune system has also evolved mechanisms to limit M. tuberculosisreplication and spread. This thesis covers work on the innate immune response to TB and how neutrophils and macrophages respond to a mycobacterial infection and can control M.