The immunology of mucosal models of inflammation

B cell developmental requirement for the G alpha i2 gene

Null mutation of the Galphai2 trimeric G protein results in a discrete and profound mucosal disorder, including inflammatory bowel disease (IBD), attenuation of IL-10 expression, and immune function polarized to Th1 activity. Genetic and adoptive transfer experiments have established a role for B cells and IL-10 in mucosal immunologic homeostasis and IBD resistance. In this study, we addressed the hypothesis that Galphai2 is required for the development of IL-10-producing B cells. Galphai2(-/-) mice were reduced in the relative abundance of marginal zone (MZ), transitional type 2 (T2), and B-1a B cells and significantly increased in follicular mature and B-1b B cells. Reconstitution of RAG2(-/-) mice with Galphai2(-/-) bone marrow induced an IBD-like colitis and a deficiency in absolute numbers of MZ, T2, and B-1 B cells. Thus, the Galphai2(-/-) genotype in colitis susceptibility and B cell development involved a cis effect within the hemopoietic compartment. In vitro, the B cell population of Galphai2(-/-) mice was functionally deficient in LPS-induced proliferation and IL-10 production, consistent with the exclusive capacity of T2 and MZ cell subpopulations for LPS responsiveness. In vivo, Galphai2(-/-) mice were selectively impaired for the IgM response to T-independent type II, consistent with the relative depletion of MZ and peritoneal B-1 subpopulations. Collectively, these results reveal a selective role for Galphai2 in MZ and B-1 B cell development. Disorders of this Galphai2-dependent process in B cell development may represent a mechanism for IBD susceptibility.

19. Immunologic, gastroenterologic, and hepatobiliary disorders

A number of gastrointestinal and hepatobiliary disorders are thought to have an immunologic basis; however, the level of understanding of immunopathogenesis varies widely in these disparate conditions. For some, such as celiac disease, both important genetic and environmental determinants have been identified as well as a specific treatment. For others, such as pernicious anemia and inflammatory bowel disease, animal models have provided important research advances. Two conditions, inflammatory bowel disease and sclerosing cholangitis, are strongly associated. Characteristic immunologic features of these diseases are critical for diagnosis. Although the majority of conditions are currently treated with nonselective anti-inflammatory and immunosuppressive agents, recent research has introduced novel biological agents, exemplified by the successful use of infliximab for Crohn's disease.

Collagen-binding integrin alpha1beta1 regulates intestinal inflammation in experimental colitis

Central to inflammatory responses are the integrin-mediated adhesive interactions of cells with their ECM-rich environment. We investigated the role of the collagen-binding integrin alpha(1)beta(1) in intestinal inflammation using the mouse model of colitis induced by dextran sodium sulfate (DSS). mAb's directed against murine alpha(1) were found to significantly attenuate inflammation and injury in DSS-treated wild-type mice; similar protection was seen in mice deficient for alpha(1)beta(1) integrin. Blockade or loss of alpha(1)beta(1) was also associated with decreased mucosal inflammatory cell infiltrate and cytokine production. Importantly, we demonstrated that development and alpha(1)-mediated inhibition of DSS-induced colitis occurred independently of lymphocytes (Rag-2(-/-) mice), and identified the monocyte as a key alpha(1)beta(1)-expressing cell type involved in the development of colitis in this model. In response to DSS, both alpha(1) deficiency and anti-alpha(1) mAb treatment significantly reduced monocyte accumulation and activation within the lamina propria. In summary, the data demonstrate that engagement of leukocyte-associated alpha(1)beta(1) receptors with ECM plays a pivotal role in mediating intestinal inflammation via promotion of monocyte movement and/or activation within the inflamed interstitium. Therapeutic strategies designed to disrupt such interactions may prove beneficial in treating intestinal inflammation.

CD4+CD25+ T(R) cells suppress innate immune pathology through cytokine-dependent mechanisms

CD4(+)CD25(+) regulatory T (T(R)) cells can inhibit a variety of autoimmune and inflammatory diseases, but the precise mechanisms by which they suppress immune responses in vivo remain unresolved. Here, we have used Helicobacter hepaticus infection of T cell-reconstituted recombination-activating gene (RAG)(-/-) mice as a model to study the ability of CD4(+)CD25(+) T(R) cells to inhibit bacterially triggered intestinal inflammation. H. hepaticus infection elicited both T cell-mediated and T cell-independent intestinal inflammation, both of which were inhibited by adoptively transferred CD4(+)CD25(+) T(R) cells. T cell-independent pathology was accompanied by activation of the innate immune system that was also inhibited by CD4(+)CD25(+) T(R) cells. Suppression of innate immune pathology was dependent on T cell-derived interleukin 10 and also on the production of transforming growth factor beta. Thus, CD4(+)CD25(+) T(R) cells do not only suppress adaptive T cell responses, but are also able to control pathology mediated by innate immune mechanisms.

Genetic dissection of the cellular pathways and signaling mechanisms in modeled tumor necrosis factor-induced Crohn's-like inflammatory bowel disease

Recent clinical evidence demonstrated the importance of tumor necrosis factor (TNF) in the development of Crohn's disease. A mouse model for this pathology has previously been established by engineering defects in the translational control of TNF mRNA (Tnf(Delta)(ARE) mouse). Here, we show that development of intestinal pathology in this model depends on Th1-like cytokines such as interleukin 12 and interferon gamma and requires the function of CD8(+) T lymphocytes. Tissue-specific activation of the mutant TNF allele by Cre/loxP-mediated recombination indicated that either myeloid- or T cell-derived TNF can exhibit full pathogenic capacity. Moreover, reciprocal bone marrow transplantation experiments using TNF receptor-deficient mice revealed that TNF signals are equally pathogenic when directed independently to either bone marrow-derived or tissue stroma cell targets. Interestingly, TNF-mediated intestinal pathology was exacerbated in the absence of MAPKAP kinase 2, yet strongly attenuated in a Cot/Tpl2 or JNK2 kinase-deficient genetic background. Our data establish the existence of redundant cellular pathways operating downstream of TNF in inflammatory bowel disease, and demonstrate the therapeutic potential of selective kinase blockade in TNF-mediated intestinal pathology.

Collagen-binding integrin alpha1beta1 regulates intestinal inflammation in experimental colitis

Central to inflammatory responses are the integrin-mediated adhesive interactions of cells with their ECM-rich environment. We investigated the role of the collagen-binding integrin alpha(1)beta(1) in intestinal inflammation using the mouse model of colitis induced by dextran sodium sulfate (DSS). mAb's directed against murine alpha(1) were found to significantly attenuate inflammation and injury in DSS-treated wild-type mice; similar protection was seen in mice deficient for alpha(1)beta(1) integrin. Blockade or loss of alpha(1)beta(1) was also associated with decreased mucosal inflammatory cell infiltrate and cytokine production. Importantly, we demonstrated that development and alpha(1)-mediated inhibition of DSS-induced colitis occurred independently of lymphocytes (Rag-2(-/-) mice), and identified the monocyte as a key alpha(1)beta(1)-expressing cell type involved in the development of colitis in this model. In response to DSS, both alpha(1) deficiency and anti-alpha(1) mAb treatment significantly reduced monocyte accumulation and activation within the lamina propria. In summary, the data demonstrate that engagement of leukocyte-associated alpha(1)beta(1) receptors with ECM plays a pivotal role in mediating intestinal inflammation via promotion of monocyte movement and/or activation within the inflamed interstitium. Therapeutic strategies designed to disrupt such interactions may prove beneficial in treating intestinal inflammation.

Cutting edge: inflammatory signals drive organ-specific autoimmunity to normally cross-tolerizing endogenous antigen

Links have been observed between infections and the development of autoimmunity. Proposed explanations include activation of self-Ag-bearing APC. Using a model system in which transgenic OVA is expressed in enterocytes, we showed that CD8 T cell recognition of cross-presented Ag in gut-associated lymph nodes was tolerogenic. However, concomitant infection with vesicular stomatitis virus encoding OVA abrogated tolerance and induced disease. We now show that following transfer of naive OT-I T cells, the addition of wild-type vesicular stomatitis virus, oral cholera toxin, or CD40 triggering can induce intestinal disease in transgenic mice. Tissue damage accompanied dramatic increases in cytokine release by activated OT-I cells in the intestine. The data indicated that products of antigenically unrelated infections can combine with cross-presented self-Ags on APC to prime autoaggressiveness, independent of additional Ag release. These results help explain how diverse pathogens, lacking any homology to self-proteins, could be causative agents in induction of organ-specific autoimmunity.

Importance of innate immunity and collagen binding integrin alpha1beta1 in TNBS-induced colitis

Inflammation occurs in the context of integrin-mediated adhesive interactions of cells with their extracellular matrix environment. We investigated the role of the collagen binding integrin alpha1beta1 in a model of colitis. alpha1beta1 was expressed on lamina propria T cells and monocytes during disease. Both alpha1 deficiency and anti-alpha1 mAb treatment (prophylactic and therapeutic) protected against colitis. In vivo alpha1beta1 blockade improved macroscopic and histologic scores, decreased inflammatory cytokine production, and profoundly affected the ability of lamina propria mononuclear cells to proliferate and produce IFN-gamma in vitro. Development and alpha1-mediated inhibition of colitis can be lymphocyte independent, suggesting that activated monocytes also represent a key alpha1beta1-expressing cell type involved in colitis. These results underscore the importance of innate immunity and, specifically, of leukocyte/matrix interactions in regulating local inflammatory responses.

Prevention of colitis by interleukin 10-transduced T lymphocytes in the SCID mice transfer model

BACKGROUND & AIMS

Regulatory CD4(+) cells secreting the anti-inflammatory cytokine interleukin (IL)-10 play a key role in maintaining the immune balance in the intestinal mucosa. In this study we engineered primary CD4(+) cells to express IL-10 and investigated the efficacy of this approach in offering protection against experimental colitis.

METHODS

Spleen-derived CD4(+) cells were transduced by using a retroviral vector to simultaneously express IL-10 and green fluorescent protein (GFP). The therapeutic benefit of CD4(+) cells transduced with IL-10 GFP was studied in experimental colitis, induced by transfer of CD45RB(high) CD4(+) cells to severe combined immunodeficient mice, and in acute trinitrobenzene sulfonic acid (TNBS)-induced colitis.

RESULTS

Transferred engineered GFP fluorescent cells were detected for at least 15 weeks in peripheral blood, spleens, colon, and lymph nodes draining the intestine of recipient SCID mice. IL-10-GFP CD4(+) cells prevented CD45RB(high)-induced transfer colitis effectively, whereas no effect was observed after transfer of nontransduced CD4(+) cells. IL-10-GFP CD45RB(high) CD4(+) cells lost the capacity to induce colitis. By contrast, no therapeutic benefit was observed in TNBS-induced colitis.

CONCLUSIONS

Primary murine CD4(+) cells that were engineered to express IL-10 by retroviral transduction act as regulatory cells in CD45RB(high)-induced transfer colitis. This approach may induce long-term maintenance of mucosal immune homeostasis in Crohn's disease.

Peroxisome proliferator-activated receptor gamma agonist ligands stimulate a Th2 cytokine response and prevent acute colitis

Peroxisome proliferator-activated receptor gamma (PPARgamma), a member of a nuclear transcription factor family, has been previously demonstrated to have antiinflammatory activity. The effects of PPARgamma activation in the development of an immune response are less well characterized. Through evaluation of PPARgamma heterozygote mice (PPARgamma(+/-) and specific PPARgamma agonist ligand binding, we evaluated the immunologic effects of PPARgamma activation in a well-described model of colitis. Increased susceptibility to dextran sodium sulfate (DSS)-induced colitis as defined by body weights, histologic injury, and survival was observed in the PPARgamma(+/-) mice in comparison to wild-type mice. Three different PPARgamma ligands (troglitazone, pioglitazone, and rosiglitazone) demonstrated beneficial dose-related treatment effects when administered prior to the onset of colitis. However, no protection was observed when PPARgamma ligand activation occurred after the onset of colitis. The reduction in DSS-induced inflammation noted with PPARgamma ligand treatment was associated with decreased interferon-gamma and tumor necrosis factor-alpha and increased interleukin (IL)-4 and IL- 10 levels as assessed by quantitative reverse transcriptase-polymerase chain reaction. Consistent with this shift towards a T helper (Th2) cytokine dominance, PPARgamma ligand treatment stimulated increased GATA-3 expression. These results indicate that the protective effects exhibited by PPARgamma ligands in intestinal inflammation may be due to immune deviation away from Th1 and towards Th2 cytokine production.

Magnifying endoscopic observation of the gastric mucosa, particularly in patients with atrophic gastritis

The gastric mucosal surface was observed using the magnifying fibergastroscope (FGS-ML), and the fine gastric mucosal patterns, which were even smaller than one unit of gastric area, were examined at a magnification of about 30. For simplicification, we classified these patterns by magnifying endoscopy in the following ways; FP, FIP, FSP, SP and MP, modifying Yoshii's classification under the dissecting microscope. The FIP, which was found to have round and long elliptical gastric pits, is a new addition to our endoscopic classification. The relationship between the FIP and the intermediate zone was evaluated by superficial and histological studies of surgical and biopsy specimens. The width of the band of FIP seems to be related to the severity of atrophic gastritis. Also, the transformation of FP to FIP was assessed by comparing specimens taken from the resected and residual parts of the stomach, respectively. Moreover, it appears that severe gastritis occurs in the gastric mucosa which shows a FIP. Therefore, we consider that the FIP indicates the position of the atrophic border.