SOCS3 promotes interleukin-17 expression of human T cells.

SOCS3 is a feedback regulator of cytokine signaling that affects T-cell polarization. Human tuberculosis is accompanied by increased SOCS3 expression in T cells, and this may influence susceptibility against Mycobacterium tuberculosis. Because the role of SOCS3 in human T-cell function is not well defined, we characterized cytokine expression and proliferation of human T cells with differential SOCS3 expression in the present study. We established a flow cytometry-based method for SOCS3 protein quantification and detected higher SOCS3 levels induced by M tuberculosis specific T-cell activation and a transient decrease of SOCS3 expression in the presence of mycobacteria-infected macrophages. Notably increased SOCS3 expression was detected in IL-17-expressing T-cell clones and in CD161(+) T helper type 17 cells ex vivo. Ectopic SOCS3 expression in primary CD4(+) T cells by lentiviral transduction induced increased IL-17 production but diminished proliferation and viability. Recombinant IL-7 inhibited SOCS3 expression and reduced IL-17-expressing T-cell proportions. We concluded that higher SOCS3 expression in human T cells favors T helper type 17 cells. Therefore, increased SOCS3 expression in human tuberculosis may reflect polarization toward IL-17-expressing T cells as well as T-cell exhaustion marked by reduced proliferation.

Decreased expression of miR-21, miR-26a, miR-29a, and miR-142-3p in CD4⁺ T cells and peripheral blood from tuberculosis patients.

The vast majority of Mycobacterium tuberculosis (M. tuberculosis) infected individuals are protected from developing tuberculosis and T cells are centrally involved in this process. MicroRNAs (miRNA) regulate T-cell functions and are biomarker candidates of disease susceptibility and treatment efficacy in M. tuberculosis infection. We determined the expression profile of 29 selected miRNAs in CD4(+) T cells from tuberculosis patients and contacts with latent M. tuberculosis infection (LTBI). These analyses showed lower expression of miR-21, miR-26a, miR-29a, and miR-142-3p in CD4(+) T cells from tuberculosis patients. Whole blood miRNA candidate analyses verified decreased expression of miR-26a, miR-29a, and miR-142-3p in children with tuberculosis as compared to healthy children with LTBI. Despite marked variances between individual donor samples, trends of increased miRNA candidate expression during treatment and recovery were observed. Functional in vitro analysis identified increased miR-21 and decreased miR-26a expression after re-stimulation of T cells. In vitro polarized Interleukin-17 positive T-cell clones showed activation-dependent miR-29a up-regulation. In order to characterize the role of miR-29a (a described suppressor of Interferon-γ in tuberculosis), we analyzed M. tuberculosis specific Interferon-γ expressing T cells in children with tuberculosis and healthy contacts but detected no correlation between miR-29a and Interferon-γ expression. Suppression of miR-29a in primary human T cells by antagomirs indicated no effect on Interferon-γ expression after in vitro activation. Finally, classification of miRNA targets revealed only a moderate overlap between the candidates. This may reflect differential roles of miR-21, miR-26a, miR-29a, and miR-142-3p in T-cell immunity against M. tuberculosis infection and disease.