Colonic mucosal mast cell distribution at line of demarcation of active ulcerative colitis

Mast cells: a possible link between psychological stress, enteric infection, food allergy and gut hypersensitivity in the irritable bowel syndrome

Intestinal mast cell activation (degranulation), which results from previous enteric infection and/or intestinal allergy, may play a central role in the gut hypersensitivity in both motor response and visceral perception in the Irritable Bowel syndrome. This occurs through various mediators acting on enteric neurons and smooth muscle cells. Psychological stress may trigger this sensitive alarm system via the brain-gut axis.

A quantitative immunohistochemical evaluation of inflammatory cells at the affected and unaffected sites of inflammatory bowel disease

Levels of T lymphocytes, histiocytes and mast cells have been reported to be increased in the affected mucosa of Crohn's disease (CD) and ulcerative colitis (UC), but the colorectal distribution of these cells is not fully understood. We hypothesized that differences in cell densities between CD and UC would be characteristic, not only in the affected, but also in the unaffected mucosa. The aims of the present study were to clarify whether there were any differences in cell densities in CD, UC and infectious colitis (IC) in the affected mucosa and between CD and UC in the unaffected mucosa. Using mouse monoclonal antibodies recognizing memory T cells (OPD4), cytotoxic/suppressor T cells (C8/144B), histiocytes (PG-M1) and mast cells (AA1), we evaluated mucosal cell densities in biopsy specimens from both endoscopically affected and unaffected sites of CD (n = 12) and UC (n = 15) and from affected sites of IC (n = 10). Ten normal controls were also examined. At affected sites, all cells were significantly more abundant in UC than in the other conditions, except that the density of PG-M1+ in CD was similar to that seen in UC. Although the densities of OPD4+ and C8/144B+ cells at unaffected sites were slightly higher in both CD and UC and in UC, respectively, there was no significant difference in cell densities between CD and UC. The ratio of OPD4+ cell density at affected sites to that at unaffected sites was appreciably higher in UC than in CD. The results suggest that a common feature of UC and CD is an increase in PG-M1+ cells at the affected mucosa but that the other inflammatory cells studied are more abundant, particularly in UC, and that the difference between UC and CD is conspicuous when comparing the OPD4+ cell density of the affected mucosa with that of the unaffected mucosa.

Mucosal allergy: role of mast cells and eosinophil granulocytes in the gut

Despite the progress made in understanding the mechanisms of allergic disease, the pathophysiology and clinical significance of intestinal allergic reactions is largely unclear. The intestinal mucosa is pre-destined for allergic reactions against food proteins and other antigens, and a number of studies indicate that allergic reactions occur in the GI tract. However, only a few epidemiological data are available, and the mechanisms are poorly understood. Intestinal allergic reactions may be different to classical IgE-mediated reactions because patients with intestinal allergy often have negative skin tests and low levels of serum IgE. There is increasing evidence that, as with the findings in the skin and lung, mast cells and eosinophils play a central role in mediating intestinal allergic reactions. Furthermore, both types of cell are found to be activated in a number of other GI inflammatory diseases such as inflammatory bowel disease, celiac disease and eosinophilic gastroenteritis. However, the relationship between these pathologies and intestinal allergy is largely unclear. A major clinical problem is the lack of appropriate means for confirming the diagnosis of intestinal allergy. However, new test systems have been developed--such as the measurement of eosinophil mediators in stool samples or endoscopic provocation tests performed locally at the intestinal mucosa, which may improve the possibility of identifying afflicted patients on an objective basis. Since symptoms of intestinal allergic reactions are variable and non-specific, the diagnosis requires the use of multiple tests and the exclusion of other pathologies such as infectious disease or non-immunological intolerance reactions. The preferred therapeutic option is avoidance of the allergens of relevance; however, this approach can be realized only in some patients, whereas others require additional treatment, for example, with oral cromoglycate or corticosteroids. Although we do not yet know to what extent intestinal allergic reactions may be an aetiological factor in GI diseases, such reactions should be considered in the differential diagnosis of unclear intestinal inflammation and irritable bowel syndrome.

Substance P--an underlying factor for pouchitis? Prospective study of substance P- and vasoactive intestinal polypeptide-immunoreactive innervation and mast cells

Recent studies suggest that substance P (SP), vasoactive intestinal polypeptide (VIP), and mast cells play a role in inflammatory processes of the bowel. The aim of this study was to evaluate the distribution of SP and VIP immunoreactivities and to count mast cells in the ileal pouch of patients, who had pouchitis after restorative proctocolectomy performed for treatment of ulcerative colitis (UC), and to compare the findings in the same patients after a follow-up period. Nine patients with pouchitis underwent clinical evaluation, endoscopy of the pouch, and histological examination, which were repeated after the follow-up period of 14 months on average. The number and intensity of SP- and VIP-immunoreactive nerve fibers were visualized by immunofluorescence microscopy and subjected to quantitative scoring, and the number of mast cells per unit area was counted. The results were compared to the histological findings and the clinical status. Lamina propria contained fibers showing bright immunofluorescence for SP and VIP. The mean fluorescence intensity score of SP-immunoreactive nerve fibers in the lamina propria remained similar after the follow-up period (2.99 +/- 0.79 and 2.06 +/- 0.82, NS). SP-immunoreactive innervation correlated with the grade of acute (R2 = 0.5396, P = 0.0242) and chronic inflammation (R2 = 0.4561, P = 0.0459), while SP and VIP immunoreactivity, mast cell count, and histological changes did not correlate with the clinical status. The present study demonstrates an increase in the density of SP-immunoreactive nerve fibers in inflamed ileal pouch mucosa of clinically asymptomatic pouchitis patients. These results raise the possibility of therapeutic interference of SP-related processes in treatment of pouchitis.

Review article: refractory distal colitis -- explanations and options

Distal colitis refractory to standard therapy is a complex and challenging problem. Physiological differences between the right and left colon may be exploited for maximum therapeutic benefit. Over-reliance on oral therapy should be seen as one of the reasons for treatment failure and delivery systems should target therapy to the distribution of the disease in doses proven to be therapeutically beneficial. The clinician should also be cognizant of potential adverse effects of standard therapies, particularly colitis due to mesalazine, which may mimic worsening disease. Numerous endogenous and exogenous factors that may exacerbate the underlying inflammatory bowel disease are discussed. This review explores the potential mechanisms why distal colitis may be refractory to therapy and addresses newer therapies that, while still in the investigatory stages, offer hope for a widening armamentarium of therapeutic modalities.

Role of histamine in a rat model of colitis

We examined the possible involvement of mast cells in a rat model of colitis, by monitoring levels of histamine at various times after inducing inflammation with intrarectal trinitrobenzene sulfonic acid in 50% ethanol. The ability of a histamine H1 antagonist, diphenhydramine, to modify colitis was also assessed. As expected, trinitrobenzene sulfonic acid in 50% ethanol induced a sustained colitis. Myeloperoxidase levels in macroscopically damaged tissue peaked at one week, and declined thereafter. In contrast, tissue histamine levels were normal at one week, then increased in damaged tissue to approximately four times normal levels at four weeks. Indices of inflammation were markedly suppressed at one week by diphenhydramine, while tissue histamine levels were unaffected. Chronic colitis in rats is thus apparently accompanied by a local mast cell hyperplasia or influx. Moreover, antagonism of a major mast cell mediator, histamine, significantly reduces the severity of inflammation in this model.

Lack of crucial role of mast cells in pathogenesis of experimental colitis in mice

Mast cell alterations have been implicated in the pathogenesis of chronic ulcerative colitis (UC). We studied the effect of mast cell deficiency of the severity of inflammation in a murine model of colitis. Colitis was induced in mice using dextran sodium sulfate (DSS). Mast-cell-deficient mice (WBB6F1/J-W/WV; N = 17) and normal littermates (WBB6F1/J-+/+; N = 17) were administered DSS 4% w/v for seven days, then water alone for one week, followed by 5% DSS for six days. Animals were sacrificed at the end of the protocol. Segments of proximal, mid-, and distal colon of each animal were processed for histopathological examination. Mortality and morbidity (diarrhea and weight loss) for each group were assessed. There was no significant difference between the two groups in either their clinical parameters (mortality and morbidity) or the severity of colitis as graded histopathologically. Our findings suggest that mast cells are not crucial for the development of DSS-induced colitis.

Boosted systemic immune and local responsiveness after intestinal inflammation in orally sensitized guinea pigs

BACKGROUND & AIMS

Intestinal inflammation resulting in disruption of the mucosal barrier function has been proposed as a cause of increased incidence of allergic diseases. This study was designed to evaluate whether intestinal inflammation is able to change the immune responsiveness to sensitization and antigen challenge responses.

METHODS

Guinea pigs orally sensitized to cow's milk proteins were either treated or not treated with trinitrobenzenesulfonic acid (TNBS) to induce intestinal inflammation and compared with control animals (not sensitized). Systemic immune and local responsiveness to antigen challenge were assessed by measuring antibody serum titers, colonic fluid secretion, mucosal histamine level, and mucus depletion. Intestinal permeability was evaluated from 51Cr-ethylenediaminetetraacetic acid (EDTA) recovery and beta-lactoglobulin serum level.

RESULTS

Immunoglobulin E titers were higher in TNBS-treated animals than in non-TNBS-treated sensitized animals. Antigen challenge in TNBS-treated animals induced a fourfold increase of colonic secretion and greater histamine and mucus depletion than in non-TNBS-treated animals. Permeability to 51Cr-EDTA increased 5 days after TNBS treatment but was unchanged after antigen challenge. In contrast to controls, beta-lactoglobulin was not detected in the sera of challenged sensitized and TNBS-treated animals.

CONCLUSIONS

Intestinal inflammation increasing gut permeability enhances the sensitization process. Therefore, local anaphylactic reactions are exacerbated after antigen challenge.

Functional and morphological changes in small bowel of Crohn's disease patients. Influence of site of disease

Morphological and functional changes were examined in the upper jejunum and terminal ileum of 18 patients suffering from Crohn's disease. Intestinal permeability, biochemical determination of enzymatic activities, and morphologic evaluation of the severity of the lesions were evaluated. Ulcerative colitis and irritable bowel syndrome patients served as controls. We found abnormal lactulose-mannitol tests in all patients with active Crohn's disease. Permeability changes correlated with increased crypt cell proliferation, as indicated by thymidine kinase activity. A significant reduction in brush border enzyme activities was seen in the terminal ileum, but no significant change was observed in the unaffected upper jejunum. The number of mast cells was increased in the diseased ileum. We conclude that the site of inflammation and the healing capacity of the epithelium are important in determining functional and biochemical abnormalities in active Crohn's disease. Changes may be dependent on the type and number of immune cells involved in the inflammatory process.

Distribution of mast cells in human ileocecal region

The number and histochemistry of mast cells were analyzed in surgical specimens of the ileocecal junction and neighboring intestinal segments. All the basophilic cells contained tryptase and some were immunoreactive for chymase, vasoactive intestinal polypeptide, or nitric oxide synthase. The medium density of mast cells per square millimeter was 31.90, 110.38, 72.83, 29.80, and 32.70, in the mucosa, submucosa, inner circular, outer circular, and longitudinal muscle layers, respectively. Mast cell density was higher at the ileocecal junction (for all layers together, 79.29 mast cells/mm2) than elsewhere (mast cells/mm2: ileum, 52.29; cecum, 59.22; cecocolonic junction, 54.65; ascending colon, 48.63). The differences among layers and among segments were significant and might be due to layer- and region-specific mast cell roles. Mast cell richness in the muscle coat, especially in the inner circular muscle layer, might be important in regulating its motility.

Repeated antigen challenge in rats induces a mucosal mast cell hyperplasia

BACKGROUND

A link between mast cells and a number of intestinal diseases has been suggested. Treatment of adult rats with connective tissue mast cell degranulating agents has been shown to induce an intestinal mucosal mast cell hyperplasia. We have examined the hypothesis that repeated systemic antigen challenge would similarly up-regulate the mucosal mast cell population.

METHODS

Animals were primed with 10 micrograms of albumin and challenged twice weekly with 3, 30, or 300 micrograms of ovalbumin, subcutaneously, for 4 weeks. The mast cell numbers were assessed histologically. In addition, measurements were made of tissue/mast cell-mediator content.

RESULTS

Repeatedly challenged animals that received 30-micrograms doses of soluble ovalbumin developed a mucosal mast cell hyperplasia in the duodenum 2 weeks after the cessation of treatment. No change in connective tissue mast cell numbers was observed. Repeated administration of 300 micrograms of antigen did not induce a mucosal mast cell hyperplasia. No significant difference between the mucosal mast cell numbers in antigen-challenged and control animals was observed when animals were treated concurrently with the mast cell-stabilizing agent disodium cromoglycate.

CONCLUSIONS

Repeated antigen challenge at doses that induce mast cell activation is associated with an increase in the number of mucosal mast cells.