Unraveling the role of the immune landscape in tuberculosis granuloma

Despite significant advances in research over the past century, Tuberculosis (TB) remains a formidable global health concern. TB granulomas are organized structures composed of immune cells, that serve as the body's primary defense against the spread of Mycobacterium tuberculosis (Mtb). The immune landscape of TB granulomas involves a complex array of immune cells, including CD4 + and CD8 + T cells, B cells, NK cells, and others, which collectively influence the fate of the granuloma. B cells contribute to the formation of the granuloma's germinal center, while the functional state of T cells-particularly their ability to control infection-dictates whether the granuloma is controlling or proliferative. The intricate interplay between T cells and the dynamic microenvironment of the granuloma plays a pivotal role in determining the outcome of the infection. However, several aspects of the immunological basis of tuberculosis are still unknown. This review delves into the immunological landscape of TB granuloma, focusing on the dynamic cellular interplay within the granuloma and its profound influence on disease pathogenesis.