Innate immunity is a late event in the onset of gliadin-specific enteropaty in the HLA-DQ8 mice.

Celiac disease (CD) is a food enteropathy that occurs in genetically susceptible individuals following the ingestion of gluten. Both gluten cytotoxicity and immunity activation play a role in CD pathogenesis; however, the chronological assessment of the different pathogenic mechanisms remains elusive. The models developed so far have only partially addressed this issue. Herein, Ab°DQ8 transgenic mice were administered wheat gliadin and indomethacin for 10 days to induce enteropathy. Gliadin-induced alteration of the small intestinal architecture was associated with increased expression of tissue transglutaminase in the lamina propria and a marked hypoxic environment. Enteropathic mice showed activation of innate immunity, featuring an increase of pro-inflammatory IFN-? and IL-15 mRNAs, as well as CD11c+CD103+, CD11b+CD11c+, and CD11b+CD103+ dendritic cell subsets. However, the temporal assessment of examined parameters indicated that the induction of innate immunity during the generation of the mucosal lesion, occurred belatedly, highlighting a major role of gliadin intrinsic cytotoxicity in the pathogenic mechanism of this model. These results have important implications for the use of this model to test the impact of biotechnological interventions to reduce the cytotoxicity of gliadin.