CD4+ T cells from 2,4,6-trinitrobenzene sulfonic acid (TNBS)-induced colitis rodents migrate to the recipient's colon upon transfer; down-regulation by CD8+ T cells

Inducing a stressed phenotype in healthy recipient mice by adoptively transferring CD4+ lymphocytes from mice undergoing chronic psychosocial stress

Although chronic stress is an acknowledged risk factor for the development of somatic and affective disorders, the cellular and molecular mechanisms underlying stress-induced pathologies are not fully understood. Interestingly, rodent studies involving immune cell transfer suggest that CD4⁺ T cells might be at least in part involved in reactivation of a chemically-induced colitis by stress. However, until now evidence is lacking that these immune cell types are indeed involved in the development of a "stressed phenotype". The aim of the present study was, therefore, to assess the effects of adoptively transferring total mesenteric lymph node cells (mesLNCs) and CD4⁺ mesLNCs isolated from chronically-stressed mice into healthy recipient mice on various physiological, immunological and behavioral parameters. To induce chronic psychosocial stress in donor mice we employed the chronic subordinate colony housing (CSC) paradigm. Our data indicate that transfer of total or CD4⁺ mesLNCs from CSC mice, compared with respective cells from single-housed control (SHC) mice, promoted splenomegaly and interferon (IFN)-γ secretion from in vitro anti-CD3-stimulated mesLNCs in naïve recipient mice. This effect was independent of recipient mice additionally being administered with dextran sulfate sodium (DSS) or not. Transfer of CD4⁺ mesLNCs additionally increased adrenal weight and secretion of IL-6 from in vitro anti-CD3 stimulated mesLNCs in recipients administered with DSS. Importantly, transfer of neither cell type from CSC vs. SHC donor mice affected anxiety-related behavior of recipient mice in the light-dark box. Taken together, our data demonstrate that typical physiological and immunological, but not behavioral, effects of chronic stress can be induced in naïve recipient mice by adoptively transferring mesLNCs, in particular CD4⁺ mesLNCs, from chronically stressed donor mice.

Upregulation of 11β-hydroxysteroid dehydrogenase 1 in lymphoid organs during inflammation in the rat

Glucocorticoids exert anti-inflammatory and immunomodulatory effects that may be regulated in part by the activities of the glucocorticoid-activating and -inactivating enzymes, 11β-hydroxysteroid dehydrogenase type 1 (11HSD1) and type 2 (11HSD2), respectively. Previous studies have demonstrated that inflammatory bowel diseases in humans and experimental animals upregulate 11HSD1 and downregulate 11HSD2. We investigated whether proinflammatory cytokines modulate colonic 11HSDs as well as whether lymphoid organs exhibit any 11HSD response to inflammation. Colon tissue explants exposed to tumor necrosis factor α exhibited an upregulation of 11HSD1 mRNA whereas interleukin 1β downregulated 11HSD2 mRNA. Experimental colitis induced by the intracolonic administration of 2,4,6-trinitrobenzenesulfonic acid stimulated 11HSD1 activity not only in the colon but also in mesenteric lymph nodes and the spleen. Analysis of mRNA for 11HSD1 in colon-draining lymph nodes and the spleen showed that inflammation upregulates the expression of this enzyme in mobile lymphoid cells similar to the intraepithelial and lamina propria leukocytes isolated from the colon. It is inferred that inflammation stimulates the reactivation of glucocorticoids in lymphoid organs and in gut-associated lymphoid tissue.

Blockade of LTB(4) /BLT(1) pathway improves CD8(+) T-cell-mediated colitis

BACKGROUND

Leukotriene B4 (LTB(4) ) has chemotactic properties for activated T cells expressing the high-affinity receptor BLT(1) . This study investigated whether the LTB(4) antagonist (CP-105,693), selective for BLT(1) receptor, could protect mice from colitis mediated by specific cytotoxic CD8(+) T lymphocytes (CTL).

METHODS

Virus-specific colitis was induced in C57Bl/6 mice transferred with lymphoid cells from P14 TcR Tg mice which are specific to class I GP33 peptide of LCMV. Mice were immunized with GP33-pulsed dendritic cells and colitis was elicited by intrarectal administration of the peptide. Colitis was evaluated by body weight loss and macroscopic and histological analysis of colon. In vivo priming of specific CD8(+) CTL was determined using interferon (IFN)-γ ELISPOT and in vivo CTL assays. In some experiments mice were treated with a selective LTB(4) receptor antagonist.

RESULTS

Immunization with GP33-pulsed dendritic cells (DCs) induced priming of specific CD8(+) CTL, as shown by the presence of IFN-γ-producing CD8(+) T cells in colon draining lymph nodes and in vivo CTL assays. Intrarectal challenge with GP33 induced severe colitis and recruitment of granzyme B(+) P14 CD8(+) cells in colon. Treatment with the specific LTB(4) receptor antagonist before elicitation of colitis reduced the severity of colitis and decreased the frequency of specific effectors.

CONCLUSIONS

Colitis can be induced by IFN-γ-producing cytotoxic CD8(+) CTL specific for viral antigen. Blockade of the LTB(4) /BLT(1) pathway by a selective BLT(1) receptor antagonist attenuates colitis by inhibiting CD8(+) effectors recruitment in colon. These data illustrate the therapeutic potential of LTB(4) receptor selective antagonists in protection from CD8(+) T-cell-mediated intestinal inflammation.

T-cell regulation of neutrophil infiltrate at the early stages of a murine colitis model

BACKGROUND

T-cells are a main target for antiinflammatory drugs in inflammatory bowel disease. As the innate immune system is also implicated in the pathogenesis of these diseases, T-cell suppressors may not only inhibit T-cell-dependent production of proinflammatory mediators but also affect innate immune cell function. Specifically, these drugs may impair innate immune cell recruitment and activation through inhibition of T-cells or act independent of T-cell modulation. We explored the extent of immune modulation by the T-cell inhibitor tacrolimus in a murine colitis model.

METHODS

We assessed the effects of tacrolimus on trinitro-benzene sulphonic acid (TNBS) colitis in wildtype and Rag2-deficient mice. The severity of colitis was assessed by means of histological scores and weight loss. We further characterized the inflammation using immunohistochemistry and by analysis of isolated intestinal leukocytes at various stages of disease.

RESULTS

Tacrolimus-treated wildtype mice were less sensitive to colitis and had fewer activated T-cells. Inhibition of T-cell function was associated with strongly diminished recruitment of infiltrating neutrophils in the colon at the early stages of this model. In agreement, immunohistochemistry demonstrated that tacrolimus inhibited production of the neutrophil chemoattractants CXCL1 and CXCL2. Rag2-deficient mice displayed an enhanced baseline level of lamina propria neutrophils that was moderately increased in TNBS colitis and remained unaffected by tacrolimus.

CONCLUSIONS

Both the innate and the adaptive mucosal immune system contribute to TNBS colitis. Tacrolimus suppresses colitis directly through inhibition of T-cell activation and by suppression of T-cell-mediated recruitment of neutrophils.

Involvement of T cell Ig Mucin-3 (Tim-3) in the negative regulation of inflammatory bowel disease

Augmented intestinal T cells, especially CD4(+)T cells, are involved in the pathogenesis of inflammatory bowel disease (IBD). We used a murine 2, 4, 6-trinitrobenzene sulfonic acid (TNBS)-induced colitis model to investigate whether Tim-3, a negative regulator of CD4(+)T cells, is involved in the suppression of IBD. We found that blocking the Tim-3 signal pathway exacerbated TNBS-induced colitis, as shown by increased weight loss and aggravated tissue injury. Blockade of the Tim-3 pathway resulted in an increase in Tim-3(+)CD4T cells, a biased T effector cell response, and a decrease in Treg cells. It also resulted in an altered profile of co-stimulatory molecules expressed on lymphocytes, which partially explained the biased polarization of different T cell subsets. Our data suggest that the Tim-3 pathway is highly involved in the negative regulation of IBD. A better understanding of this pathway may shed new light on the pathogenesis of this disease.

Glucocorticoid-induced tumour necrosis factor receptor family-related receptor signalling exacerbates hapten-induced colitis by CD4+ T cells

The glucocorticoid-induced tumour necrosis factor receptor family related gene (GITR) has been reported to be expressed on the activated T and CD4(+)CD25(+) regulatory T cells (Treg). Signalling triggered by GITR not only neutralizes the suppressive effect of Treg cells, but also augments activation, proliferation and cytokine production of effector T cells. To test the role of GITR in 2,4,6-trinitrobenzene sulphonic acid (TNBS)-induced colitis - a murine model of mucosal inflammation - TNBS-injected Balb/c mice were treated with agonistic anti-GITR monoclonal antibody (mAb). Anti-GITR treatment increased the death rate compared to rat IgG-treated mice. Typically, death occurred within 4 days after the TNBS injection when the mice were treated with anti-GITR. The mice that survived anti-GITR treatment suffered from severe inflammation in their entire intestines. CD4(+) T-depletion protected the mice from colitis; even an anti-GITR effect was not apparent. In contrast, CD8(+) T depletion showed less protective than did CD4(+) T depletion. Stimulation of GITR enhanced the production of proinflammatory cytokines including interferon (IFN)-gamma, tumour necrosis factor (TNF)-alpha, interleukin (IL)-6 and IL-12. It also enhanced the humoral response such as serum levels of IgG(2b) and IgA, which was completely dependent on CD4(+) T cells. Taken together, this study demonstrated that GITR signalling on CD4(+) T cells is involved in the development and progress of colitis by enhancing both T helper type 1 (Th1) and Th2 type responses.

CD8+ cytotoxic T cells induce relapsing colitis in normal mice

BACKGROUND & AIMS

Most mouse models of IBD have emphasized an effector role of type-1 CD4+ T cells in colitis. The aim of this study was to develop a model of antigen-specific relapsing colitis to investigate the relative contribution of CD4+ and CD8+ effectors.

METHODS

Balb/C mice were sensitized and challenged with a suboptimal dose of 2.4 dinitrobenzene sulfonic acid to generate a colonic delayed-type hypersensitivity response. The respective role of CD4+ and CD8+ T cells in the initiation of colitis was analyzed by in vivo monoclonal antibody depletion and cell-transfer experiments. Dynamic and function of the colitogenic effectors were studied by immunohistochemistry, fluorescence-activated cell sorter analysis, enzyme-linked immunospot assay, quantitative polymerase chain reaction, and in vivo CTL assays.

RESULTS

Relapsing colitis rapidly occurred only after challenge of previously sensitized mice. Interferon-gamma-producing cytotoxic CD8+ T cells (Tc1) specific for hapten-modified self-proteins were generated in colon-draining lymph nodes on day 5 after sensitization, before the onset of disease. These CD8+ T cells were rapidly recruited upon challenge into colon lamina propria as granzyme B-expressing effectors exerting ex vivo cytotoxicity against syngeneic hapten-modified colonic epithelial cells. Colitis was prevented by in vivo antibody depletion of CD8+, but not of CD4+, T cells and could be induced in naive recipients within 48 hours after transfer of CD8+, but not CD4+, T cells purified from sensitized mice.

CONCLUSIONS

Our data show that antigen-specific CD8+ T cells can induce relapsing colitis in normal mice and suggest that the cytolytic function of CD8 Tc1 against epithelial cells may initiate the intestinal inflammatory process.

Noradrenergic and cholinergic neural pathways mediate stress-induced reactivation of colitis in the rat

Evidence to date suggests that stress-induced exacerbation or relapse of intestinal inflammation in inflammatory bowel disease requires both activation of the autonomic nervous system and the activation of the immune system by the presence of previously encountered luminal antigens. The aim of the present study was to further explore these associations and to determine the role of the autonomic nervous in modulating the intestinal inflammatory response to stress. Rats healed from an initial dinitrobenzene sulfonic acid-induced colitis were given a non-colitic dose of dinitrobenzene sulfonic acid (dissolved in saline) or 0.9% saline intra-rectally and then subjected to restraint stress. Cardiac sympathovagal balance was assessed by power spectral analysis of heart rate variability data collected from telemetric electrocardiogram recordings before, during and post stress. Only rats that were stressed and received dinitrobenzene sulfonic acid showed an inflammatory relapse characterized by significant macroscopic damage and elevated myeloperoxidase activity associated with a significant infiltration of mucosal and submucosal T lymphocytes. No difference in inflammatory markers was observed in animals that received intra-rectal saline and restraint stress. Rats subjected to stress and intra-rectal dinitrobenzene sulfonic acid demonstrated an increase in sympathetic activity with a nearly four fold increase in LF:HF ratio during stress and a significant increase in heart rate. Shortly after cessation of stress, the LF:HF ratio decreased significantly, returning to baseline levels, however the heart rate remained significantly elevated over baseline levels following stress, but decreased to a level that was significantly lower than during stress. The stress/dinitrobenzene sulfonic acid-induced relapses were preventable by pre-treating rats with hexamethonium (a nicotinic cholinergic ganglion blocking agent) or the co-administration of atropine (a muscarinic cholinoceptor antagonist) and bretylium (a noradrenergic ganglion blocking agent), but was not prevented when either atropine or bretylium were administered alone. This study utilizes an established model of chemically induced colitis that when integrated with stress results in relapsing inflammatory bowel disease. Moreover, this study demonstrates that noradrenergic and cholinergic neural pathways mediate the stress response critical for the relapse of colitis.

Ameliorating effect of hepatocyte growth factor on inflammatory bowel disease in a murine model

Hepatocyte growth factor (HGF), a multifunctional cytokine, accelerates intestinal epithelial proliferation. We studied the effects of HGF in mice with trinitrobenzene sulfonic acid-induced colitis, which shows clinical and molecular resemblance to Crohn's disease. Mice with colitis repeatedly were transfected intramuscularly with human HGF cDNA. Weight, survival, histopathology, proinflammatory cytokine mRNAs, and leukocyte infiltration were assessed. Treatment with HGF cDNA induced tyrosine phosphorylation of intestinal c-Met/HGF receptors, inhibited apoptosis, and promoted mitosis in intestinal epithelial cells, accelerating intestinal epithelial restoration and suppressing inflammation. Transfection with HGF cDNA markedly suppressed intestinal mRNA expression of T-helper 1 cytokines such as interleukin-12 and -1beta, interferon-gamma, and tumor necrosis factor-alpha. Numbers of total and CD4-positive T cells, neutrophils, and myloperoxidase activity in intestinal epithelium were diminished by HGF gene transfer, which also prevented weight loss, and improved survival. HGF might prove useful for controlling inflammatory bowel disease.

Inflammatory bowel disease: dysfunction of GALT and gut bacterial flora (I)

Gut-associated lymphoid tissue (GALT) is the largest lymphoid organ in the body. This is not surprising considering the huge load of antigens (Ags) from food and commensal bacteria with which it interacts on a daily basis. Gut-associated lymphoid tissue has to recognise and allow the transfer of beneficial Ags whilst concurrently dealing with and successfully removing putative and overtly harmful Ags. This distinctive biological feature of GALT is believed to be crucial to good health. Deregulation or dysfunction of GALT is thought to predispose to inflammatory bowel diseases (IBD) such as ulcerative colitis and Crohn's disease. The exact mechanism(s) underlying the pathogenesis of IBD is (are) poorly understood and the immunological defects in GALT are poorly documented. Advances in immunology have highlighted the importance of dendritic cells (DCs), which are the key Ag presenting cells in tissues and lymphoid compartments. Their crucial role in GALT, in health and disease is discussed in this review. Interaction of DCs with T cells in the gut produces a subset of T lymphocytes, which have immunosuppressive function. Inappropriate Ag uptake and presentation to naïve T cells in mesenteric lymph nodes may lead to T cell tolerance in GALT. These various complex factors in the gut are discussed and their possible relevance to IBD evaluated.

Specific CTL activity of CD8+ TCR Vbeta14+ T cell in mouse 2, 4, 6-trinitrobenzene sulfonic acid-induced colitis

We analyzed the functional role of CD8+ T-cell receptor (TCR) Vbeta14+ T cells, which increased specifically in the lamina propria in 2,4,6-trinitrobenzene sulfonic acid (TNBS) -induced colitis. Cytotoxic activity and cytokine production in CD8+ TCR Vbeta14+ T-cell clones were analyzed by 51Cr release assay and enzyme-linked immunosorbent assay, respectively. Cell transfer studies using these clones were performed. Established T-cell clones showed specific cytotoxic activity against TNBS-conjugated self spleen cells, and this cytotoxicity was completely inhibited by anti-TCR Vbeta14 monoclonal antibody. These clones produced interferon (IFN) - gamma in their culture supernatant, but neither interleukin (IL) - 2 nor IL-4. Histological findings of the colon in mice, which received clone transfer after enema with suboptimal doses of TNBS, showed massive colitis. Our results indicate that CD8+ TCR Vbeta14+ T cells had a cytotoxic T-lymphocyte function induced by Th-1 T-cell response and played a pathogenic role in the development of TNBS-induced colitis.

Down-regulation by bucillamine of lamina propria leucocytes in the rat colitis model

1. The efficacy of bucillamine has been reported in various inflammatory models. 2. In the present study, the effects of 2 weeks administration of bucillamine on hapten-induced experimental rat colitis were analysed. The gross morphological damage score was evaluated and the expression of CD4, CD8, CD11a, CD11b, CD25, CD54 and class II major histocompatibility complex (MHC) antigen was investigated by immunohistochemical methods. 3. Mean bodyweight was significantly increased in colitic rats given 750 micrograms bucillamine compared with colitic rats given vehicle (distilled water). Gross morphological damage was significantly less in colitic rats given 250 or 750 micrograms bucillamine compared with rats given vehicle. 4. Immunohistological studies revealed that CD4, CD11a, CD11b, CD54 and class II MHC antigen expression of infiltrating leucocytes was significantly lower in rat colonic mucosa treated with bucillamine. 5. From these findings, it appears that bucillamine may act through the down-regulation of the activation of lamina propria leucocytes in hapten-induced rat colitis.

The role of CD4+ lymphocytes in the susceptibility of mice to stress-induced reactivation of experimental colitis

Idiopathic inflammatory bowel disease is a chronic relapsing condition. The role of stress in causing relapses of inflammatory bowel disease remains controversial. We now show that colitis induced in mice by dinitrobenzenesulfonic acid (DNBS) resolves by 6 weeks, but can subsequently be reactivated by stress plus a sub-threshold dose of DNBS, but not by DNBS alone. Stress reduced colonic mucin and increased colon permeability. Susceptibility to reactivation by stress required CD4+ lymphocytes and could be adoptively transferred. We conclude that stress reactivates experimental colitis by facilitating entry of luminal contents that activate previously sensitized CD4 cells in the colon.

Chronic experimental colitis induced by dextran sulphate sodium (DSS) is characterized by Th1 and Th2 cytokines

Oral administration of DSS has been reported to induce an acute and chronic colitis in mice. The aim of our study was to evaluate if the chronic phase of DSS-induced colitis was characterized by a Th1/Th2 response and how this would relate to mucosal regeneration. Swiss Webster mice were fed 5% DSS in their drinking water for 7 days, followed by 2-5 weeks consumption of water. Control mice received only water. The animals were killed at 3 and 6 weeks after induction. Their colons were isolated for histology and immunohistochemistry, using specific MoAbs for T and B cells, macrophages, interferon-gamma (IFN-gamma), IL-4 and IL-5. Colons were scored for inflammation, damage and regeneration. Two weeks after stopping DSS the colonic epithelium had only partially healed. Total colitis scores were still increased, especially in the distal colon, which was due to more inflammation, damage and less regeneration. In areas of incomplete colonic healing the basal parts of the lamina propria contained macrophages and CD4+ T cells. These CD4+ T cells showed a focal increase of IFN-gamma and IL-4 staining compared with control animals. These findings were still observed 5 weeks after stopping DSS in some mice, albeit less extensive. Chronic DSS-induced colitis is characterized by focal epithelial regeneration and a Th1 as well as Th2 cytokine profile. We postulate that chronic immune activation mediated by both populations of Th cells can interfere with colonic healing and can play a role in the pathogenesis of chronic colitis.

Chronic experimental colitis induced by dextran sulphate sodium (DSS) is characterized by Th1 and Th2 cytokines

Oral administration of DSS has been reported to induce an acute and chronic colitis in mice. The aim of our study was to evaluate if the chronic phase of DSS-induced colitis was characterized by a Th1/Th2 response and how this would relate to mucosal regeneration. Swiss Webster mice were fed 5% DSS in their drinking water for 7 days, followed by 2-5 weeks consumption of water. Control mice received only water. The animals were killed at 3 and 6 weeks after induction. Their colons were isolated for histology and immunohistochemistry, using specific MoAbs for T and B cells, macrophages, interferon-gamma (IFN-gamma), IL-4 and IL-5. Colons were scored for inflammation, damage and regeneration. Two weeks after stopping DSS the colonic epithelium had only partially healed. Total colitis scores were still increased, especially in the distal colon, which was due to more inflammation, damage and less regeneration. In areas of incomplete colonic healing the basal parts of the lamina propria contained macrophages and CD4+ T cells. These CD4+ T cells showed a focal increase of IFN-gamma and IL-4 staining compared with control animals. These findings were still observed 5 weeks after stopping DSS in some mice, albeit less extensive. Chronic DSS-induced colitis is characterized by focal epithelial regeneration and a Th1 as well as Th2 cytokine profile. We postulate that chronic immune activation mediated by both populations of Th cells can interfere with colonic healing and can play a role in the pathogenesis of chronic colitis.