An essential two-component signal transduction system in Mycobacterium tuberculosis

The bacterial two-component signal transduction systems regulate adaptation processes and are likely to play a role in Mycobacterium tuberculosis physiology and pathogenesis, The previous initial characterization of an M. tuberculosis response regulator from one of these systems, mtrA-mtrB, suggested its transcriptional activation during infection of phagocytic cells. In this work, we further characterized the mtrA response regulator from M. tuberculosis H37Rv, Inactivation of mtrA on the chromosome of M. tuberculosis H37Rv was possible only in the presence of plasmid-borne functional mtrA, suggesting that this response regulator is essential for M, tuberculosis viability. In keeping with these findings, expression of mtrA in M, tuberculosis H37Rv was detectable during in vitro growth, as determined by S1 nuclease protection and primer extension analyses of mRNA levels and mapping of transcript 5' ends, The mtrA gene was expressed differently in virulent M, tuberculosis and the vaccine strain ill. tuberculosis var. bovis BCG during infection of macrophages, as determined by monitoring of mtrA-gfp fusion activity. In M, bovis BCG, mtrA was induced upon entry into macrophages, In hi. tuberculosis H37Rv, its expression was constitutive and unchanged upon infection of murine or human monocyte-derived macrophages. In conclusion, these results identify mtrA as an essential response regulator gene in ill tuberculosis which is differentially expressed in virulent and avirulent strains during growth in macrophages.