Supplemental Antioxidants Do Not Ameliorate Colitis Development in HLA-B27 Transgenic Rats Despite Extremely Low Glutathione Levels in Colonic Mucosa

M.A.A. Schepens, C. Vink, A.J. Schonewille, H.M.J. Roelofs, R.J. Brummer, R. van der Meer, I.M.J. Bovee-Oudenhoven

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13 Citations (Scopus)


Background: Oxidative stress is presumed to play an important role in inflammatory bowel disease (IBD). Accordingly, antioxidant supplementation might be protective. Dietary calcium inhibited colitis development in HLA-B27 transgenic rats, an animal model mimicking IBD. As antioxidants might act at mucosa level and calcium predominantly in the gut lumen, we hypothesize that the combination has additive protective effects on colitis development. Methods: HLA-B27 rats were fed a control diet or the same diet supplemented with the antioxidants glutathione, vitamin C, and vitamin E, or supplemented with both antioxidants and calcium. Oxidative stress in colonic mucosa, colonic inflammation, intestinal permeability, and diarrhea were quantified. Results: Intestinal permeability, diarrhea, myeloperoxidase, and interleukin-1 beta levels were significantly lower in rats fed both antioxidants and calcium compared to rats supplemented with antioxidants only. No beneficial effects were observed in rats fed the diet supplemented with antioxidants only. Strikingly, despite extremely low colonic mucosal glutathione levels in HLA-B27 rats, there was no oxidative stress-related damage. Subsequent analyses showed no defect in expression of glutathione synthesis genes. Additional experiments, comparing young and older HLA-B27 rats, showed that glutathione levels and also reactive oxygen species production decreased with progression of intestinal inflammation. Conclusions: Antioxidant supplementation was ineffective in HLA-B27 rats despite low mucosal glutathione levels, because colitis development did not coincide with oxidative stress in this model. This indicates that the neutrophilic respiratory burst, and thus innate immune defense, is compromised in HLA-B27 rats. As supplementation with both calcium and antioxidants attenuated colitis development, we speculate that this protective effect is attributed to calcium only.
Original languageEnglish
Pages (from-to)2065-2075
JournalInflammatory Bowel Diseases
Issue number10
Publication statusPublished - 2011


  • inflammatory-bowel-disease
  • dietary calcium
  • ulcerative-colitis
  • salmonella
  • cancer
  • cells
  • permeability
  • prevention
  • nutrition
  • radicals


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