Different transcriptional profiles of human monocyte-derived dendritic cells infected with distinct strains of Mycobacterium tuberculosis and Mycobacterium bovis bacillus Calmette-Guérin.

In order to analyze dendritic cells (DCs) activation following infection with different mycobacterial strains, we studied the expression profiles of 165 genes of human monocyte-derived DCs infected with H37Rv, a virulent Mycobacterium tuberculosis (MTB) laboratory strain, CMT97, a clinical MTB isolate, Mycobacterium bovis bacillus Calmette-Guérin (BCG), Aventis Pasteur, and BCG Japan, both employed as vaccine against tuberculosis. The analysis of the gene expression reveals that, despite a set of genes similarly modulated, DCs response resulted strain dependent. In particular, H37Rv significantly upregulated EBI3 expression compared with BCG Japan, while it was the only strain that failed to release a significant IL-10 amount. Of note, BCG Japan showed a marked increase in CCR7 and TNF-α expression regarding both MTB strains and it resulted the only strain failing in exponential intracellular growth. Our results suggest that DCs display the ability to elicit a tailored strain-specific immune response.

Recombinant BCG-Rv1767 amount determines, in vivo, antigen-specific T cells location, frequency, and protective outcome.

One possibility to improve the efficacy of BCG vaccine against TB is to create a recombinant BCG (r-BCG), increasing the expression of mycobacterial antigens, to ameliorate the response to BCG. Here we describe a new r-BCG expressing the gene Rv1767, induced by Mycobacterium tuberculosis during its survival in human macrophages. The r-BCG elicited a specific T cells response in Balb/c mice higher than wt BCG. The r-BCG amount used to immunise mice determined diverse Th1/Th2 equilibriums, which was not the same in spleen and Lymph Nodes. Differences in cytokines production were found for IL-10, IL-4, TNF-alpha, and Arginase-1, which, in some conditions, resulted higher in r-BCG as compared to wt BCG-immunised mice. The immunisation with r-BCG-Rv1767 induced a lesser protective activity than wt BCG in a mouse model of TB. This reduction might likely be explained by the specific T cells phenotype and setting existing before MTB challenge, induced by either the single or the triple dose of r-BCG. The use of this model may help to highlight the capacity of different M. tuberculosis antigens to induce a protective immune response, actually not necessarily embodied by an increased frequency of Antigen-specific effector memory T cells.