Massimiliano Sarra

Aryl hydrocarbon receptor-induced signals up-regulate IL-22 production and inhibit inflammation in the gastrointestinal tract.

BACKGROUND & AIMS The pathogenesis of inflammatory bowel disease (IBD) is believed to involve an altered balance between effector and regulatory T cells. Aryl hydrocarbon receptor (AhR), a ligand-dependent transcription factor that mediates the toxicity of dioxins, controls T-cell responses. We investigated the role of AhR in inflammation and pathogenesis of IBD in humans and mouse models. METHODS AhR expression was evaluated in intestinal tissue samples from patients with IBD and controls by real-time polymerase chain reaction (PCR) and flow cytometry. Intestinal lamina propria mononuclear cells (LPMCs) were activated in the presence or absence of the AhR agonist 6-formylindolo(3, 2-b)carbazole (Ficz). Colitis was induced in mice using trinitrobenzene sulfonic acid (TNBS), dextran sulfate sodium (DSS), or T-cell transfer. Mice were given injections of Ficz or the AhR antagonist 2-metyl-2H-pyrazole-3-carboxylic acid; some mice first received injections of a blocking antibody against interleukin (IL)-22. Cytokines were quantified by real-time PCR and flow cytometry. RESULTS Intestine tissue from patients with IBD expressed significantly less AhR than controls. In LPMCs from patients with IBD, incubation with Ficz reduced levels of interferon gamma (IFN)-γ and up-regulated IL-22. Mice injected with Ficz were protected against TNBS-, DSS-, and T-cell transfer-induced colitis; they had marked down-regulation of inflammatory cytokines and induction of IL-22. Mice given AhR antagonist produced more inflammatory cytokines and less IL-22 and developed a severe colitis. Neutralization of endogenous IL-22 disrupted the protective effect of Ficz on TNBS-induced colitis. CONCLUSIONS AhR is down-regulated in intestinal tissue of patients with IBD; AhR signaling, via IL-22, inhibits inflammation and colitis in the gastrointestinal tract of mice. AhR-related compounds might be developed to treat patients with IBDs.

Differential regulation of interleukin 17 and interferon γ production in inflammatory bowel disease

Background and Aims: Interleukin 17 (IL17) is now known to be involved in a number of chronic inflammatory disorders. However, the mechanisms regulating its production in inflammatory bowel disease (IBD) are still unclear. Methods: Endoscopic biopsies or surgical specimens were taken from inflamed and uninflamed colonic mucosa of 72 patients with IBD (38 with Crohn’s disease and 34 with ulcerative colitis), and normal colon of 38 control subjects. IL17 and interferon γ (IFNγ) were detected by ELISA in the supernatants of biopsies cultured ex vivo, and anti-CD3/CD28-stimulated lamina propria mononuclear cells (LPMCs) incubated with IL12, IL23, IL1β plus IL6, transforming growth factor β1 (TGFβ1), or anti-IL21 neutralising antibody. Intracellular flow cytometry was performed to analyse mucosal Th17 and Th1/Th17 cells. Results: IL17 production by organ culture biopsies was higher in IBD inflamed mucosa than IBD uninflamed mucosa and controls, and was equivalent in amount to IFNγ. Anti-CD3/CD28-stimulated IBD LPMCs produced higher IL17 amounts compared to controls. The percentages of Th17 and Th1/Th17 cells were increased in patients with IBD. IL23 and IL1β plus IL6 had no effect on IBD LPMC production of IL17; however, IL12 markedly increased IFNγ production and decreased IL17 production. TGFβ1 dose-dependently decreased IFNγ, but had no significant inhibitory effect on IL17 production. Blocking IL21 significantly downregulated IL17 production. Conclusions: Our findings support a role for IL12, TGFβ and IL21 in modulating IL17/IFNγ production in IBD. The abundant IL17 in inflamed IBD mucosa may help explain the relative lack of efficacy of anti-IFNγ antibodies in clinical trials of Crohn’s disease.

Regulation of Gut Inflammation and Th17 Cell Response by Interleukin-21

BACKGROUND & AIMS Interleukin (IL)-21, a T-cell-derived cytokine, is overproduced in inflammatory bowel diseases (IBD), but its role in the pathogenesis of gut inflammation remains unknown. We here examined whether IL-21 is necessary for the initiation and progress of experimental colitis and whether it regulates specific pathways of inflammation. METHODS Both dextran sulfate sodium colitis and trinitrobenzene sulfonic acid-relapsing colitis were induced in wild-type and IL-21-deficient mice. CD4(+)CD25(-) T cells from wild-type and IL-21-deficient mice were differentiated in T helper cell (Th)17-polarizing conditions, with or without IL-21 or an antagonistic IL-21R/Fc. We also examined whether blockade of IL-21 by anti-IL-21 antibody reduced IL-17 in cultures of IBD lamina propria CD3(+) T lymphocytes. Cytokines were evaluated by real-time polymerase chain reaction and/or enzyme-linked immunosorbent assay. RESULTS High IL-21 was seen in wild-type mice with dextran sulfate sodium- and trinitrobenzene sulfonic acid-relapsing colitis. IL-21-deficient mice were largely protected against both colitides and were unable to up-regulate Th17-associated molecules during gut inflammation, thus suggesting a role for IL-21 in controlling Th17 cell responses. Indeed, naïve T cells from IL-21-deficient mice failed to differentiate into Th17 cells. Treatment of developing Th17 cells from wild-type mice with IL-21R/Fc reduced IL-17 production. Moreover, in the presence of transforming growth factor-beta1, exogenous IL-21 substituted for IL-6 in driving IL-17 induction. Neutralization of IL-21 reduced IL-17 secretion by IBD lamina propria lymphocytes. CONCLUSIONS These results indicate that IL-21 is a critical regulator of inflammation and Th17 cell responses in the gut.

IL-23/IL-17 axis in IBD.

&NA; Gut inflammation occurring in patients with Crohns disease and patients with ulcerative colitis has been traditionally associated with an exaggerated Th1 or Th2 cell response, respectively. However, recent studies have shown that in both inflammatory bowel diseases (IBD) there is also enhanced synthesis of cytokines made by a distinct subset of T helper cells, termed Th17 cells. The discovery that this new T‐cell subset drives immune‐mediated pathology in the gut, and that interleukin (IL)‐23 amplifies Th17 cell responses and gut inflammation, has contributed to elucidate new pathways of tissue damage as well as to open new avenues for development of therapeutic strategies in IBD. Nonetheless, it has been recently shown that Th17‐related cytokines, such as IL‐17A and IL‐22, can exert protective rather than detrimental effects in the gut. We here review the available data regarding the role of Th17 cells and IL‐23 in chronic intestinal inflammation. (Inflamm Bowel Dis 2010)

Involvement of interleukin-21 in the epidermal hyperplasia of psoriasis

T cells are crucial mediators of the skin damage in psoriasis. We here show that interleukin-21 (IL-21), a T cell–derived cytokine, is highly expressed in the skin of individuals with psoriasis, stimulates human keratinocytes to proliferate and causes epidermal hyperplasia when injected intradermally into mice. In the human psoriasis xenograft mouse model, blockade of IL-21 activity resolves inflammation and reduces keratinocyte proliferation. Blocking IL-21 may represent a new therapeutic strategy in psoriasis.

Interleukin 21 contributes to the mucosal T helper cell type 1 response in coeliac disease

Background: In coeliac disease (CD), the upper bowel lesion is associated with a marked infiltration of the mucosa with Th1 cells secreting interferon γ (IFNγ) and expressing the Th1-associated transcription factor, T-bet. However, the molecular mechanisms which regulate T-bet and promote the Th1 cell response are unknown. Objective: To examine whether interleukin 21 (IL21), a cytokine that regulates T cell activation, has a role in CD. Methods: Duodenal mucosal samples were taken from CD patients and normal controls. IL21 and T-bet were examined by real-time PCR and western blotting, and IFNγ was assessed by real-time PCR and ELISA. The effect of blockade of endogenous IL21 on the expression of T-bet was examined in an ex vivo culture of biopsies taken from untreated CD patients. Finally, the role of IL21 in controlling T-bet and IFNγ was also evaluated in cultures of biopsies taken from treated CD patients and cultured with a peptic–tryptic digest of gliadin (PT) in the presence or absence of a neutralising IL21 antibody. Results: Enhanced IL21 RNA and protein expression was seen in duodenal samples from untreated CD patients. Blockade of IL21 activity in biopsies of untreated CD patients reduced T-bet and IFNγ secretion. Stimulation of treated CD biopsies with PT enhanced IL21 expression, and neutralisation of IL21 largely prevented PT-driven T-bet and IFNγ induction. Conclusions: IL21 is overproduced in the mucosa of CD patients, where it helps sustain T-bet expression and IFNγ production.

Smad7 Controls Resistance of Colitogenic T Cells to Regulatory T Cell-Mediated Suppression

BACKGROUND & AIMS Foxp3-expressing regulatory T cells (Tregs) play a key role in the maintenance of the gut immune homeostasis, and an intact transforming growth factor (TGF)-beta signaling is required for their function. In inflammatory bowel disease (IBD), the TGF-beta signaling is impaired because of high expression of the inhibitory molecule Smad7. Although no intrinsic defects in Tregs function have been shown in IBD, it is still unknown whether colitogenic T cells are susceptible to Treg-mediated suppression. In this study, we have investigated whether IBD mucosal CD4+ T cells are resistant to Tregs and whether Smad7 is involved in this process. METHODS IBD lamina propria mononuclear cells (LPMC) were cultured with or without Tregs, and proliferation was assessed by flow cytometry. Proliferation of IBD LPMC was also evaluated after Smad7 antisense oligonuclotide treatment. Treg-mediated suppression of T-cell proliferation and proinflammatory cytokine expression was investigated in murine Smad7 transgenic cells. In vivo, the Smad7-dependent resistance of colitogenic naïve T cells to Tregs was studied in the adoptive transfer model of colitis. RESULTS IBD LPMC were resistant to Treg-mediated suppression, and this phenomenon was reverted by Smad7 antisense treatment. Consistently, CD4+ T cells isolated from Smad7 transgenic mice showed high proliferation, produced considerable amount of inflammatory cytokines following activation, and induced a severe colitis when transferred in immunodeficient RAG1 knockout mice even in the presence of wild-type Tregs. CONCLUSIONS Smad7 makes CD4+ T cells resistant to Tregs-mediated suppression thus fine-tuning their proinflammatory potential.

IL‐23‐mediated regulation of IL‐17 production in Helicobacter pylori‐infected gastric mucosa

Helicobacter pylori (Hp) infection is associated with a marked infiltration of the gastric mucosa by inflammatory cells. The molecular pathways that control Hp‐associated inflammatory reaction are complex, but locally induced cytokines seem to contribute to maintaining the ongoing inflammation. We have previously shown that IL‐17 is over‐produced in Hp‐infected gastric mucosa, and that IL‐17 stimulates the synthesis of IL‐8, the major neutrophil chemoattractant. Factors/mechanisms that regulate IL‐17 expression remain, however, unknown. In this study, we initially expanded our previous data, showing that CD4+ and CD8+ T cells are a source of IL‐17 in Hp‐infected samples. Since IL‐23 enhances T cell‐derived IL‐17 during bacterial infections, we then assessed the role of IL‐23 in controlling IL‐17 expression in Hp‐colonized stomach. Using real‐time PCR and ELISA, IL‐23 was detected in all gastric biopsies, but its expression was more pronounced in Hp‐infected samples in comparison to controls. Treatment of normal gastric lamina propria mononuclear cells (LPMC) with IL‐23 enhanced Stat3 activation and IL‐17 secretion, and pharmacological inhibition of Stat3 prevented IL‐23‐driven IL‐17 synthesis. Consistently, blockade of IL‐23 in cultures of LPMC from Hp‐infected patients reduced Stat3 activation and IL‐17 production. Data show that IL‐23 is overexpressed in Hp‐infected gastric mucosa where it could contribute to sustaining IL‐17 production.

Involvement of interleukin-21 in the regulation of colitis-associated colon cancer

IL-21 expression is increased in the gut of patients with colitis-associated colon cancer, and genetic ablation or antibody neutralization of IL-21 reduces tumor size and inflammation in mice treated with dextran sulfate sodium and azoxymethane.

Autocrine Regulation of IL-21 Production in Human T Lymphocytes

IL-21 has pathologic function in immune-inflammatory diseases. IL-21 mediates its functions through a heterodimeric receptor, composed of a specific subunit, termed IL-21R, and the common γ-chain. IL-21 is mostly produced by CD4+ T cells, but molecular mechanisms that regulate IL-21 synthesis are not fully understood. The fact that CD4+ T cells express high levels of IL-21R and are capable of functionally responding to IL-21 raises the possibility that IL-21 may regulate its own production. We here show that IL-21 enhances IL-21 RNA and protein expression in human peripheral blood CD3+ T cells in a dose- and time-dependent fashion. Additionally, both IL-7 and IL-15, but not IL-4, induce IL-21, thus suggesting that common γ-chain signals are not sufficient to promote IL-21 synthesis. Analysis of molecular mechanisms underlying IL-21 induction reveals that IL-21 activates Stat3 and enhances its recruitment to IL-21 gene promoter. Pharmacologic inhibition and knockdown of Stat3 by small interference RNA largely prevent IL-21 induction in IL-21-treated cells. Consistently, IL-21 is inducible in T cells by IL-6, another cytokine that activates Stat3. Finally, we show that IL-21 positively regulates its own expression in human intestinal CD3+ lamina propria lymphocytes, and blockade of endogenous IL-21 in cultures of CD3+ lamina propria lymphocytes isolated from patients with Crohn’s disease, a chronic inflammatory bowel disease characterized by high IL-21, down-regulates Stat3 activation and IL-21 expression. These data suggest the existence of a positive autocrine loop that could help to amplify and stabilize IL-21-driven, T cell-mediated responses.