Dietary phosphate exacerbates intestinal inflammation in experimental colitis

We undertook this study in order to fully characterize the clinical and histopathology features of the dextran sulfate sodium (DSS) model of experimental murine colitis and to discover the earliest histopathologic changes that lead to colitis. Acute colitis was induced in Swiss-Webster mice by 7 days of oral DSS with animals sacrificed daily. Chronic colitis was induced by: (a) 7 days of oral DSS followed by 7 days of H2O (for 1, 2, and 3 cycles) and (b) 7 days of oral DSS followed by 14 and 21 days of H2O. In each experimental group, the entire colons were examined histologically and correlated with clinical symptoms. Acute clinical symptoms (diarrhea and/or grossly bloody stool) were associated with the presence of erosions and inflammation. More importantly, the earliest histologic changes which predated clinical colitis was loss of the basal one-third of the crypt (day 3), which progressed with time to loss of the entire crypt resulting in erosions on day 5. The earliest changes were very focal and not associated with inflammation. Inflammation was a secondary phenomena and only became significant after erosions appeared. Animals treated with only 7 days of DSS followed by 14 and 21 days of H2O developed a chronic colitis with the following histologic features: areas of activity (erosions and inflammation), inactivity, crypt distortion, florid epithelial proliferation and possible dysplasia. These changes were similar to animals given 3 cycles of DSS. The clinical disease activity index correlated significantly with pathologic changes in both the acute and chronic phases of the disease. The mechanism of DSS colitis is presently unknown. However, the finding of crypt loss without proceeding or accompanying inflammation suggests that the initial insult is at the level of the epithelial cell with inflammation being a secondary phenomena. This may be a good model to study how early mucosal changes lead to inflammation and the biology of the colonic enterocyte. Chronic colitis induced after only 7 days of DSS may serve as a useful model to study the effects of pharmacologic agents in human inflammatory disease and mechanisms of perpetuation of inflammation. Finally, we believe that this model has the potential to study the dysplasia cancer sequence in inflammatory disease.

An assay was devised to quantitate acute intestinal inflammation based on the assessment of myeloperoxidase activity. Myeloperoxidase is an enzyme found in neutrophils and, in much smaller quantities, in monocytes and macrophages. Myeloperoxidase was solubilized with hexadecyltrimethylammonium bromide and myeloperoxidase activity was measured with a dianisidine-H2O2 assay. In neutrophil suspensions, myeloperoxidase activity was directly related to cell number down to as few as 500 cells. Myeloperoxidase activity was assayed in two animal models of inflammation: acetic acid-induced colitis in rats and Clostridium difficile enterotoxin-induced enteritis in hamsters. In both models, the activity of myeloperoxidase solubilized from the inflamed tissue was directly proportional to the number of neutrophils seen in histologic sections. Histologic evaluation of neutrophil accumulation was performed by counting the number of neutrophils in a histologic section 0.18 mm long and 5 micron thick. In both animal models, myeloperoxidase activity was linearly related to neutrophil number from 400 and 4000 cells/mm. Myeloperoxidase activity from chronically inflamed colon, in which both neutrophils and histiocytes were present, was directly related to neutrophil content. Histiocytes did not contribute significantly to myeloperoxidase activity. The determination of myeloperoxidase activity in the intestine is a simple biochemical assay that can be used to quantitate inflammation.

Crohn's disease (CD) and ulcerative colitis (UC), known as inflammatory bowel disease (IBD), are fairly common chronic inflammatory conditions of the gastrointestinal tract. Although the exact etiology of IBD remains uncertain, dysfunctional immunoregulation of the gut is believed to be the main culprit. Amongst the immunoregulatory factors, reactive oxygen species are produced in abnormally high levels in IBD. Their destructive effects may contribute to the initiation and/or propagation of the disease. We provided an extensive overview on the evidences from animal and human literature linking oxidative stress to IBD and its activity. Moreover, the effects of antioxidant therapy on IBD patients in randomized, controlled trials were reviewed and the need for further studies elaborated. We also summarized the evidence in support for causality of oxidative stress in IBD.