Pattern recognition pathways leading to a Th2 cytokine bias in allergic bronchopulmonary aspergillosis patients

Summary Background Allergic bronchopulmonary aspergillosis ( ABPA ) is characterised by an exaggerated Th2 response to A spergillus fumigatus , but the immunological pathways responsible for this effect are unknown. Objective The aim of this study was to decipher the pattern recognition receptors ( PRR s) and cytokines involved in the A spergillus‐ specific Th2 response and to study A spergillus ‐induced responses in healthy controls and ABPA patients. Methods Peripheral blood mononuclear cells ( PBMC s) were stimulated with heat‐killed A spergillus conidia, various other pathogens, or PRR ligands. PRR s and cytokine pathways were blocked with PRR ‐blocking reagents, anti‐TNF (Etanercept or Adalimumab), IL‐1Ra (Anakinra) or IFNγ (IFN‐gamma). ELISA and FACS were used to analyse cytokine responses. Results A spergillus was the only pathogen that stimulated the Th2 cytokines IL‐5 and IL‐13, while Gram‐negative bacteria, Gram‐positive bacteria, C andida albicans, chitin, β‐glucan or Toll‐like receptor ( TLR ) ligands did not. Depletion of CD4 + cells abolished IL‐13 production. Blocking complement receptor 3 ( CR 3) significantly reduced IL‐5 and IL‐13, while blocking TLR2, TLR4 or dectin‐1 had no effect. ABPA patients displayed increased A spergillus ‐induced IL‐5 and IL‐13 and decreased IFNγ production compared with healthy controls. All biological agents tested showed the capability to inhibit Th2 responses, but also decreased A spergillus ‐induced IFNγ. Conclusions and Clinical Relevance A spergillus conidia are unique in triggering Th2 responses in human PBMC s, through a CR 3‐dependent pathway. ABPA patients display a significantly increased A spergillus ‐induced Th2/Th1 ratio that can be modulated by biologicals. These data provide a rationale to explore IFNγ therapy in ABPA as a corticosteroid‐sparing treatment option, by dampening Th2 responses and supplementing the IFNγ deficiency at the same time.