The protective role of tissue-resident interleukin 17A-producing gamma delta T cells in Mycobacterium leprae infection.

Mycobacterium leprae is a kind of disease-causing bacteria and results in leprosy in human. Gamma delta (γδ) T cell is a T-cell subset that is presented in both human dermis and epidermis. These cells bridge innate and adaptive immune responses and play critical roles in regulating anti-microbial defense, wound healing, and skin inflammation. Here, we investigated skin resident γδ T cells in patients with leprosy. Our data showed that γδ T cells significantly accumulated in skin lesions of leprosy patients with tuberculoid (TT) form. IL-23 can predominantly stimulate dermal γδ T cells to produce interleukin 17 (IL-17), a cytokine which may lead to disease protection. These γδ T cells expressed a specific set of surface molecules, and majority of these cells were Vδ1+. Also, IL-23 can stimulate the expansion of dermal γδ T cells expansion. Moreover, our results revealed that the transcription factor RORγt was responsible for IL-17A expression in leprosy lesion. Therefore, these data indicated that IL-23-responsive dermal γδ T cells were the major resource of IL-17A production in the skin and could be a potential target in the treatment of leprosy.

Elevated IL-23 in skin promotes IL-23 derived Th17 responses in leprosy patients.

Leprosy is an infectious disease caused by non-cultivable bacteria Mycobacterium leprae. Th17 cells play vital roles during pathogenesis of leprosy reactions and IL-23 is involved in Th17 cell differentiation. Although previous studies have reported the participation of IL-23 in leprosy patients in peripheral blood, the role of this cytokine in skin has not yet been described for the disease. In this study, we first evaluated IL-23 expression in the skin of patients with leprosy. Data showed that in keratinocytes, endothelial cells, and macrophages, IL-23 expression was markedly higher in patients compared to that in the normal skin controls. Also, leprosy patients presented higher percentage of IL-17A-producing IL-23R + CD4 T cells than healthy donors. IL-23R blocking induced markedly downregulated IL-17A secretion in leprosy patients but not in healthy donors. Furthermore, TGF-ß expression was significantly elevated after IL-23R blocking. Overall, this study establishes that Th17 cells produce IL-17A in an IL-23 dependent manner in the skin of leprosy patients and provides more focused treatment strategies for Mycobacterium leprae.