Fasciola hepatica tegumental antigens induce anergic-like T cells via dendritic cells in a mannose receptor-dependent manner

Abstract

FoxP3+ Treg cells and anergic T cells are the two regulatory phenotypes of T-cell responses associated with helminth infection. Here, we examine the T-cell responses in mice during Fasciola hepatica infection, and to its tegumental coat antigens (FhTeg) that are shed from the fluke every 2-3 h. FhTeg comprises a rich source of glycoproteins, mainly oligomannose N-glycans that bind to mannose receptor. This study demonstrated a novel mechanism for the T-cell unresponsiveness observed during F. hepatica infection and after injection with FhTeg. Markers of T-cell anergy, such as GRAIL, EGR2, ICOS, and ITCH, are enhanced amongst CD4+ T-cell populations during infection and following FhTeg injection. This is characterized by a lack of cytokine responses and reduced proliferative activity, which can be reversed with the addition of IL-2. FhTeg-activated dendritic cells (DCs) suppress T cells in vitro as measured by enhanced GRAIL and CTLA4 by RNA and suppressed cytokine expression in anti-CD3 stimulated CD4+ T cells. FhTeg-treated DCs have enhanced MR expression, which is critical for DC-CD4+ T-cell communication. Taken together, this study presents markers of anergy in a mouse model of F. hepatica infection, and improves our understanding of host-pathogen interactions and how helminths modulate host immunity.