During tuberculosis (TB) infection, the granuloma provides the microenvironment in which antigen-specific T cells colocate with and activate infected macrophages to inhibit the growth of Mycobacterium tuberculosis. Although the granuloma is the site for mycobacterial killing, virulent mycobacteria have developed a variety of mechanisms to resist this macrophage-mediated killing. These surviving mycobacteria become dormant, however, if host cellular immunity or the signals maintaining granuloma structure wane, or if mycobacteria resume replication, leading to reactivation of TB. This balance of life and death applies not only to the mycobacterium but also to the host macrophages that may undergo apoptosis or necrosis, leading to the characteristic caseous necrosis within the granuloma, and the potential spread of TB infection. The immunological factors controlling the development and maintenance of the granuloma will be reviewed. Keywords: granuloma; tuberculosis; reactivation; cytokines; chemokinesThe formation and maintenance of granulomas are essential for the control of mycobacterial infections but, paradoxically, granulomas are also responsible for the typical immunopathology caused by these infections. There are over 70 species of Mycobacteria, but Mycobacterium tuberculosis and Mycobacterium leprae, the causative agents of tuberculosis (TB) and leprosy, are the major human pathogens. These slow-growing mycobacteria have adapted to survival within the macrophage, and this capacity for persistence of mycobacteria in the face of a potent cellular response underlies the chronic inflammatory reaction of the host. Mycobacterial infection of dendritic cells (DCs) stimulates CD4 and CD8 T cells, which on recruitment to the sites of infection activate infected macrophages. M. tuberculosis, however, blocks phago-lysosomal fusion and acidification of infected phagosomes, and also partially inhibits the activation of infected macrophages by interferon (IFN)-g, the major effector cytokine released by Th1-like CD4 T cells. As a result, some mycobacteria persist in the infected lung, leading to chronic antigenic stimulation and T-cell accumulation around macrophages. In the face of chronic cytokine stimulation, macrophages differentiate into epithelioid cells and fuse to form typical giant cells. Within the resulting granuloma, there is a balance between mycobacterial killing and survival. The local architecture results in the close apposition of lymphocytes and macrophages, and this is necessary for the activation of macrophages to kill M. tuberculosis. But the survival of some tuberculous bacilli leads to latent TB infection (LTBI), which is contained by the granulomatous process. Following acute M. tuberculosis infection, this process is adequate to control the infection in 95% of subjects, while the remainder progress to primary TB disease. There are currently two billion humans with LTBI, and reactivation of the infection occurs in 5-7% 1 of these subjects without, and in up to 50% with, human immunodeficiency virus...
