The effects of Fasciola hepatica tegumental antigens on mast cell function.

Fasciola hepatica infection is associated with T helper 2/T regulatory immune responses and increased mast cell numbers. The aim of this study was to examine the interaction between F. hepatica tegumental coat antigen and mast cells in vivo and in vitro. Firstly, BALB/C, C57BL/6 or STAT6(-/-) mice were infected with F. hepatica metacercarie or mice were treated with F. hepatica tegumental coat antigen and then mast cells numbers in the peritoneal cavity and/or the liver were quantified. Also, the proliferation, chemotaxis, degranulation and cytokine secretion of mast cells from bone marrow or from peritoneal exudate cells stimulated with F. hepatica tegumental coat antigen were measured. Finally, we tested whether F. hepatica tegumental coat antigen inhibits degranulation of mast cells in vivo in a passive cutaneous and systemic anaphylaxis mouse model. Mast cell numbers increased in the peritoneal cavity and liver of F. hepatica infected mice, and this was mimicked by injection of F. hepatica tegumental coat antigen in a STAT6(-/-) independent manner. The increase in mast cell number was not the result of F. hepatica tegumental coat antigen-induced proliferation; rather F. hepatica tegumental coat antigen indirectly induces mast cell migration by dendritic cell-derived chemokines. Fasciola hepatica tegumental coat antigen interactions with mast cells do not drive T helper 2 or T regulatory immune responses. These studies on mast cell and F. hepatica tegumental coat antigen interaction may help us to understand the function of mast cells in immunity against F. hepatica and the immunomodulatory effect of F. hepatica tegumental coat antigen on these cells.

Fasciola hepatica tegumental coat impairs mast cells' ability to drive Th1 immune responses.

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.

Mast cells cultured from IL-3-treated mice show impaired responses to bacterial antigen stimulation.

OBJECTIVE AND DESIGN: This study exploits the biological activity of interleukin (IL)-3 to generate high yields of peritoneal mast cells ex vivo in order to examine pro-inflammatory immune responses in ex-vivo culture. MATERIAL OR SUBJECTS: Mast cells were obtained from the peritoneal cavity of C57BL/6 mice. TREATMENT: Mice were injected intraperitoneally twice per day for 5 days with IL-3 (40-50 µg/ml) to increase mast cell numbers. METHODS: Histological studies examined mast cell numbers in the peritoneal cavity, intestine, lung, spleen and skeletal muscle. Peritoneal mast cells cultured ex vivo (PCMCs) were stimulated for 24 h with lipopolysaccharide and Bordetella pertussis antigen and secretion of tumour necrosis factor-α, IL-6, IL-4, IL-5, IL-10 and interferon-γ into supernatant was measured by commercial ELISA. Cell surface marker expression of FcεRI, c-kit, OX40L and TLR2 was measured by flow cytometry. Mast cell degranulation was measured using a ß-hexosaminidase assay. RESULTS: IL-3 treatment increases mast cell numbers in the peritoneal cavity, spleen and muscle but not intestine and lung of C57BL/6 mice. PCMCs generated from IL-3-treated mice exhibit impaired growth, differentiation and responses to activation as measured by decreased cytokine secretion and cell surface marker expression. CONCLUSION: Mast cells cultured from IL-3-treated mice show impaired responses.

Ascaris lumbricoides pseudocoelomic body fluid induces a partially activated dendritic cell phenotype with Th2 promoting ability in vivo.

Dendritic cells (DCs) matured with helminth-derived molecules that promote Th2 immune responses do not follow conventional definitions of DC maturation processes. While a number of models of DC maturation by Th2 stimuli are postulated, further studies are required if we are to clearly define DC maturation processes that lead to Th2 immune responses. In this study, we examine the interaction of Th2-inducing molecules from the parasitic helminth Ascaris lumbricoides with the maturation processes and function of DCs. Here we show that murine bone marrow-derived DCs are partially matured by A. lumbricoides pseudocoelomic body fluid (ABF) as characterised by the production of IL-6, IL-12p40 and macrophage inflammatory protein 2 (MIP-2) but no enhanced expression of cluster of differentiation (CD)-14, T-cell co-stimulatory markers CD80, CD86, CD40, OX40L and major histocompatibility complex class II was observed. Despite these phenotypic characteristics, ABF-stimulated DCs displayed the functional hallmarks of fully matured cells, enhancing DC phagocytosis and promoting Th2-type responses in skin-draining lymph node cells in vivo. ABF activated Th2-associated extracellular signal-regulated kinase-1 and nuclear factor-kB intracellular signalling pathways independently of toll-like receptor 4. Taken together, we believe this is the first paper to demonstrate A. lumbricoides murine DC-Th cell-driven responses shedding further light on DC maturation processes by helminth antigens.