Murine model of coeliac disease


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DQ8-Dd-villin-IL-15tg mice were maintained on a gluten-free diet (GFD; sham), fed gluten for 60 days (gluten), or fed gluten for 30 days and then reverted to a GFD (gluten→GFD) for 30 days. a, Experimental timeline. b, Left, haematoxylin and eosin (H&E) staining of paraffin-embedded ileum sections. Scale bars, 200 μm. Right, graph depicts the ratio of the morphometric assessment of villus height to crypt depth (GFD, n = 9; gluten, n = 13; gluten→GFD, n = 11 mice). c, Serum levels of anti-DGP IgG antibodies were measured by ELISA. Serum was collected sequentially in the same mice (n = 12) before gluten feeding (untreated), 30 days after gluten feeding (gluten d30), and 30 days after reversion to a GFD (GFD d60).  (Source Abadie et al., 2020)

DQ8-Dd-villin-IL-15tg mice were maintained on a gluten-free diet (GFD; sham), fed gluten for 60 days (gluten), or fed gluten for 30 days and then reverted to a GFD (gluten→GFD) for 30 days. a, Experimental timeline. b, Left, haematoxylin and eosin (H&E) staining of paraffin-embedded ileum sections. Scale bars, 200 μm. Right, graph depicts the ratio of the morphometric assessment of villus height to crypt depth (GFD, n = 9; gluten, n = 13; gluten→GFD, n = 11 mice). c, Serum levels of anti-DGP IgG antibodies were measured by ELISA. Serum was collected sequentially in the same mice (n = 12) before gluten feeding (untreated), 30 days after gluten feeding (gluten d30), and 30 days after reversion to a GFD (GFD d60). (Source: Abadie et al., 2020)

Coeliac disease is an inflammatory autoimmune disease of the small intestine caused by anti-gluten innate and adaptive immunity. It is associated with over-expression of IL-15, presence of IgG and IgA antibodies against peptides and enzymes such as transglutaminase-2 (TG2) and cytolytic activity in the small intestines. Up-regulation of IL-15, predominantly from intestinal epithelial cells (IECs) is crucial for induction of cytotoxic T cells during coeliac disease. However, when researchers attempted to develop murine models of coeliac disease by up-regulating IL-15 secretion by either the lamina propria or IECs. They were unable to recapitulate pathophysiological and immunological features associated with coeliac disease. Additionally, neither model was able to induce villous atrophy, a key pathology associated with coeliac disease . Based on these results, Abadie et al., hypothesised that induction of coeliac disease required overexpression of IL-15 by both the lamina propria and IECs.

Abadie et al., developed transgenic DQ8-Dd-villin-IL-15tg mice, which express HLA-DQ8 [HLA associated with genetic predisposition to coeliac disease), as well as over-express IL-15 by both the lamina propria and IECs. These transgenic mice developed immunopathologies associated with coeliac disease, including villous atrophy after a gluten-rich diet. Using this model they demonstrated that “[The] adaptive TH1 immune response promoted by HLA-DQ8 and IL-15 in the lamina propria, synergises with IL-15 in the epithelium to further promote the expansion of cytolytic lymphocytes and their degranulation, leading to CD8+ T cell-dependent killing of epithelial cells and villous atrophy.”
These results represent the first murine model of coeliac disease and pave the way for pre-clinical research on potential therapeutic strategies as well as an animal model to enable improved understanding of coeliac disease immuno-pathology.

Abadie et al., 2020. IL-15, gluten and HLA-DQ8 drive tissue destruction in coeliac disease. Nature

Article by Cheleka AM Mpande

 
 
 
 
 
 
International Union of Immunological SocietiesUniversity of South AfricaInstitute of Infectious Disease and Molecular MedicineScience Education PrizesElizabeth Glazer Pediatric Aids Foundation