The parasitic worm Fasciola hepatica induces strong Th2 and T-regulatory immune responses while simultaneously suppressing Th1-driven immune responses to bystander microbial infections. It also prevents the initiation of Th1-mediated autoimmune disorders in mice through the suppression of Th17 and Th1 immune responses, and this can be mimicked by parasite-derived molecules. We have isolated F. hepatica tegumental coat Ag (FhTeg) and demonstrated its suppressive effect in vivo by directly targeting dendritic cells, impairing their ability to drive Th1 responses. Mast cells are critical in promoting Th1 protective immunity during bacterial infection and in driving Th1-mediated pathological conditions in autoimmune diseases. In this article, we show that FhTeg inhibits the ability of mast cells to drive the Th1 immune response by suppressing cytokine secretion (TNF-α, IL-6, IFN-γ, and IL-10) and ICAM1 expression in mast cells stimulated with LPS or heat-inactivated Bordetella pertussis Ag. These heat-inactivated B. pertussis Ag/LPS–stimulated mast cells fail to promote Th1 immune responses in CD4+ T cells when pretreated with FhTeg, and a role for ICAM1 in this process was demonstrated. FhTeg suppresses the activation of transcription factors in the TLR signaling pathway, which explains the decrease in cytokine production and cell surface marker expression. We demonstrated that FhTeg suppresses MAPK and NF-κB activation and enhances SOCS3 expression, which could explain its negative effect on the TLR pathways. We conclude that FhTeg targets innate immune cells, inhibiting their ability to drive Th1 immune responses.
Summary
The M2 subset of macrophages has a critical role to play in host tissue repair, tissue fibrosis and modulation of adaptive immunity during helminth infection. Infection with the helminth, Fasciola hepatica, is associated with M2 macrophages in its mammalian host, and this response is mimicked by its excretory‐secretory products (FhES). The tegumental coat of F. hepatica (FhTeg) is another major source of immune‐modulatory molecules; we have previously shown that FhTeg can modulate the activity of both dendritic cells and mast cells inhibiting their ability to prime a Th1 immune response. Here, we report that FhTeg does not induce Th2 immune responses but can induce M2‐like phenotype in vivo that modulates cytokine production from CD4+ cells in response to anti‐CD3 stimulation. FhTeg induces a RELMα expressing macrophage population in vitro, while in vivo, the expression of Arg1 and Ym‐1/2 but not RELMα in FhTeg‐stimulated macrophages was STAT6 dependent. To support this finding, FhTeg induces RELMα expression in vivo prior to the induction of IL‐13. FhTeg can induce IL‐13‐producing peritoneal macrophages following intraperitoneal injection This study highlights the important role of FhTeg as an immune‐modulatory source during F. hepatica infection and sheds further light on helminth–macrophage interactions.
Fasciola hepatica tegumental coat antigen (FhTeg) suppresses dendritic cell maturation and function by inhibiting IL-6, tumour necrosis factor (TNF)-α, IL-10 and IL-12 production and CD80, CD86 and CD40 cell surface marker expression in TLR4-stimulated dendritic cells. Fasciola hepatica also impairs dendritic cell function by inhibiting its phagocytic capacity and its ability to prime T cells. We have shown previously that activation of mast cells with bacterial ligands is also inhibited by FhTeg. Fasciola hepatica suppresses LPS-induced NF-κB and MAPK pathway (ERK) activation in these cells. Previously, we demonstrated that FhTeg induces expression of suppressor of cytokine signalling (SOCS)3, a negative regulator of the TLR pathway in mast cells. In this study, we show the same inhibitory effect of FhTeg on the activation of the other members of the MAPKs pathway (ERK, p38, JNK) in dendritic cells and demonstrate an enhanced expression of SOCS3, but not SOCS1, SOCS5 or PIAS3 in this process. These studies enhance our understanding of the immunomodulatory effect of helminth molecules on the TLR pathway.
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