Abstract

The secreted proteins of M. tuberculosis, early secreted antigenic target 6 kDa (ESAT-6) and culture filtrate protein 10 kDa (CFP10), have been identified as antigenic proteins with potent T-cell stimulatory effects, and therefore have been the focus of tuberculosis vaccine studies. However, recent work showed that secretion of these proteins by the specialized ESAT-6 secretion system (ESX)-1 of M. tuberculosis is associated with virulence and pathogenesis. The studies demonstrated that ESAT-6 inhibits antigen-presenting cell function by reducing IL-12 production by macrophages through interrupting TLR2 signaling pathways and inducing macrophage apoptosis. However, the effect of ESAT-6 on T cells remains unexplored. To address this question, we studied the effect of recombinant ESAT-6 and CFP10 on human primary T-cell IFN-gamma secretion and proliferation. ESAT-6, but not CFP10, inhibited IFN-gamma production by T cells stimulated with M. tuberculosis or with anti-CD3 plus anti-CD28, in a dose-dependent manner. ESAT-6 also inhibited T-cell production of IL-17 and TNF-a, but not IL-2. Presence of CFP10 as part of the ESAT-6/CFP10 heterodimer did not affect ESAT-6 inhibition of T-cell IFN-gamma production. ESAT-6 inhibited the proliferation of CD3+ cells in response to TCR stimulation. ESAT-6 decreased T-cell IFN-gamma secretion by mechanisms independent of cytotoxicity or apoptosis. ESAT-6 reduced IFN-gamma mRNA levels by inhibiting the expression of the transcription factors, ATF-2, c-Jun and CREB, which upregulate IFN-gamma gene expression in T cells through binding to the IFN-gamma proximal promoter. ESAT-6, but not CFP10, bound to T cells and inhibited expression of early activation markers without reducing phosphorylation of ZAP70, a proximal TCR signaling molecule. We conclude that ESAT-6 directly inhibits human T-cell responses by affecting TCR signaling pathways downstream of ZAP70.