Human T-cell responses to 25 novel antigens encoded by genes of the dormancy regulon of Mycobacterium tuberculosis.

The dormancy (DosR) regulon of Mycobacterium tuberculosis is expressed in vitro during hypoxia and low-dose nitric oxide stimulation. Tubercle bacilli are thought to encounter these conditions in humans during latent infection. In this study, immune responses were evaluated to 25 most strongly induced DosR-regulon-encoded proteins, referred to as latency antigens. Proliferation assays were performed using M. tuberculosis-specific T-cell lines and peripheral blood mononuclear cells (PBMC) from tuberculosis (TB) patients, tuberculin skin test positive (TST+) individuals and uninfected controls. All 25 latency antigens were able to induce production of interferon-gamma (IFN-gamma) by T-cell lines. Eighteen latency antigens were also recognized by PBMC of M. tuberculosis-infected individuals, which indicates expression of the DosR-regulon during natural infection. Differential analysis showed that TST+ individuals recognized more latency antigens and with a stronger cumulative IFN-gamma response than TB patients, while the opposite profile was found for culture filtrate protein-10. In particular Rv1733c, Rv2029c, Rv2627c and Rv2628 induced strong IFN-gamma responses in TST+ individuals, with 61%, 61%, 52% and 35% responders, respectively. In conclusion, several new M. tuberculosis antigens were identified within the DosR-regulon. Particularly strong IFN-gamma responses to latency antigens were observed in latently infected individuals, suggesting that immune responses against these antigens may contribute to controlling latent M. tuberculosis infection.