Gluten induces coeliac-like disease in sensitised mice involving IgA, CD71 and transglutaminase 2 interactions that are prevented by probiotics

Papista, Christina; Gerakopoulos, Vasileios; Kourelis, Andreas; Sounidaki, Maria; Kontana, Anastasia; Berthelot, Laureline; Moura, Ivan C.; Monteiro, Renato C.; Yiangou, Minas

doi:10.1038/labinvest.2012.13

Cited by 79 publications

(67 citation statements)

References 28 publications

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“…Yet the outcome of probiotic intervention is difficult to control in humans, and animal studies might help to assess their modulatory capacity on intestinal responses to gluten. In mice immunised in the footpad with gliadin dissolved in ethanol and HCl and emulsified with CFA, oral delivery of the Saccharomyces boulardii KK1 strain decreased IFN-g levels and increased villus/crypt ratio [77]. In intestinal loops of germ-free rats reared on GFD, the addition of Bifidobacterium bifidum IATA-ES2 prevented the gliadin-induced loss of goblet cells and increased the amount of the tight junction protein zonulin 1.…”

Section: Role Of Microbiota and Modulation By Probioticsmentioning

confidence: 99%

The role of animal models in unravelling therapeutic targets in coeliac disease

Costes

Meresse

Cerf‐Bensussan

et al. 2015

Best Practice & Research Clinical Gastroenterology

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Section: Role Of Microbiota and Modulation By Probioticsmentioning

confidence: 99%

The role of animal models in unravelling therapeutic targets in coeliac disease

Costes

Meresse

Cerf‐Bensussan

et al. 2015

Best Practice & Research Clinical Gastroenterology

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“…It should be noted that the sensitization of mice to gluten by its depletion from the diet during three generations is an experimental design serving to mimic the intolerance of some patients with CD [50]. Although these experiments allowed us to establish a link between gluten and IgAN onset, this strategy could not be applied to patients over generations.…”

Section: Animal Modelsmentioning

confidence: 99%

Gluten, Transglutaminase, Celiac Disease and IgA Nephropathy

Lerner¹,

Berthelot²,

Jeremias³

et al. 2017

J Clin Cell Immunol

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Both, celiac disease and IgA nephropathy are autoimmune diseases that are IgA mediated and share multiple clinical, pathophysiological, genetic, nutritional and immunological aspects. In view of recent observations and wider understanding of the central role played by the intestinal ecosystem in celiac disease and IgA nephropathy development, the present review highlights those shared aspects, concentrating on potential nutritional therapeutic strategies in IgA nephropathy.

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“…In one rat model, gliadin is administered by gavage immediately after birth to germ-free Wistar AVN rats, resulting in shortened villi, crypt hyperplasia, and increased numbers of intestinal CD8αβ + IELs [ 19 ]. A similar model was developed in 2012 using Balb/c mice [ 20 ]. In this model, Balb/c mice were fed a gluten-free chow for three generations, and then the third-generation mice were fed a gluten-containing chow [ 20 ].…”

Section: Inducedmentioning

confidence: 99%

“…A similar model was developed in 2012 using Balb/c mice [ 20 ]. In this model, Balb/c mice were fed a gluten-free chow for three generations, and then the third-generation mice were fed a gluten-containing chow [ 20 ]. The gluten-challenged mice (G+) developed increased IELs, villous atrophy, and crypt hyperplasia as compared to untreated mice [G−].…”

Section: Inducedmentioning

confidence: 99%

“…Previous studies have shown that gliadin-specifi c and/or TTG-specifi c antibodies bound to gliadin or TTG can then be transported to the lamina propria, where the proteins are then phagocytosed and presented to T cells by phagocytic antigen presenting cells. In the Balb/c model of gluten-dependent enteropathy, the CD71/IgA/gluten/tTG transcellular pathway was determined to be active [ 20 ]. In the Balb/c third-generation mice that were fed a gluten-containing chow (G+), CD71 expression was increased on the enterocytes as compared to the enterocytes of the (G−) mice, and IgA+ cells were increased in the lamina propria of the G+ mice as compared to the (G−) mice.…”

Section: Not Yet Evaluated By Animal Modelsmentioning

confidence: 99%

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Using Animal Models of Celiac Disease to Understand the Role of MHC II

Marietta

Rubio–Tapia

Murray

2013

Clinical Gastroenterology

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Untreated CD patients develop increased numbers of intraepithelial lymphocytes, infl ammatory infi ltration of the lamina propria, intestinal permeability, and in a majority of cases, total or subtotal villous atrophy [ 1 ]. The trigger for the development of CD is gluten, typically derived from wheat, barley, and rye [ 2 ]. Gluten is a group of storage proteins found in wheat, rye, and barley. In wheat, gluten consists of two smaller subgroups of proteins, gliadins, and glutenins. In established CD patients, gliadin-specifi c T cells are more prevalent than glutenin-specifi c T cells [ 3 ]; however, there may be an initial stage of development for all CD patients in which their T cells respond to a greater number of epitopes [ 4 ]. A focusing phenomenon occurs later in which T cells in well-established CD patients are predominantly specifi c for epitopes that are a result of deamidation of gliadin by tissue transglutaminase [ 5 ]. CD is also strongly associated with HLA-DQ2 and HLA-DQ8, wherein 95 % are DQ2+ and most of the remaining are DQ8+ [ 6 ]. This contribution of MHC II is only 40 % of the familial risk, though, leaving 60 % of the genetic risk due to non-HLA genes [ 7 ]. This latter point is of great interest to the researchers that use animal models of CD for a number of reasons.The fi rst reason is that none of the spontaneous animal models seem to have a clear association with specifi c MHC II alleles, as is seen in human CD [ 8 ]. This may be interpreted in a number of ways. One interpretation is that MHC II does not play a vital role in the development of gluten-dependent enteropathy; however, years of clinical research have shown that the HLA molecules are necessary, though not suffi cient, for CD to occur [ 9 ]. Indeed, crucial information has come from T-cell lines derived from the jejunum of CD patients. Studies with these in vitro models using DQ2 and/or DQ8 restricted T cells determined that these intestinally derived T cells

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Gluten induces coeliac-like disease in sensitised mice involving IgA, CD71 and transglutaminase 2 interactions that are prevented by probiotics

Cited by 79 publications

References 28 publications

The role of animal models in unravelling therapeutic targets in coeliac disease

The role of animal models in unravelling therapeutic targets in coeliac disease

Gluten, Transglutaminase, Celiac Disease and IgA Nephropathy

Using Animal Models of Celiac Disease to Understand the Role of MHC II

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