Targeting IL-23 and Th17-cytokines in inflammatory bowel diseases

Over the last 15 years, the use of various biological therapies has largely improved the way we manage patients with Inflammatory Bowel Diseases (IBDs). Blockade of cytokine synthesis and/or activity is at the forefront of this new era with the success of inhibitors of tumor necrosis factor (TNF)-α. These therapies are however not effective in all IBD patients and efficacy may wane. Moreover, patients treated with anti-TNF-α antibodies can develop severe side-effects and new immune-mediated diseases. Therefore, a new challenge is to elucidate new inflammatory networks in the IBD tissue and develop novel anti-cytokine compounds, which may act in patients who are resistant to or cannot receive anti-TNF-α therapies. In this article we review the available data supporting the pathogenic role of IL-23 and Th17-related cytokines in IBD, and discuss whether and how compounds that control the activity of these cytokines may enter into the therapeutic armamentarium of IBD

Targeting IL-23 and Th17-cytokines in inflammatory bowel diseases

Over the last 15 years, the use of various biological therapies has largely improved the way we manage patients with Inflammatory Bowel Diseases (IBDs). Blockade of cytokine synthesis and/or activity is at the forefront of this new era with the success of inhibitors of tumor necrosis factor (TNF)-α. These therapies are however not effective in all IBD patients and efficacy may wane. Moreover, patients treated with anti-TNF-α antibodies can develop severe side-effects and new immune-mediated diseases. Therefore, a new challenge is to elucidate new inflammatory networks in the IBD tissue and develop novel anti-cytokine compounds, which may act in patients who are resistant to or cannot receive anti-TNF-α therapies. In this article we review the available data supporting the pathogenic role of IL-23 and Th17-related cytokines in IBD, and discuss whether and how compounds that control the activity of these cytokines may enter into the therapeutic armamentarium of IBD

Celiac disease-related inflammation is marked by reduction of Nkp44/Nkp46-double positive natural killer cells

Introduction and Aim: Natural killer (NK) cells are a first line of defence against viruses and down-regulation of NK cell cytotoxic receptors represents one of the strategies by which viruses escape the host's immune system. Since onset of celiac disease (CD), a gluten-driven enteropathy, has been associated with viral infections, we examined whether CD-associated inflammation is characterized by abnormal distribution of NK cell receptors involved in recognition of viral-infected cells. Materials and Methods: Intraepithelial mononuclear cells, isolated from duodenal biopsies of active and inactive CD patients and healthy controls (CTR) and jejunal specimens of obese subjects undergoing gastro-intestinal bypass, were analysed for NK cell markers by flow-cytometry. Expression of granzyme B, interleukin (IL)-22 and tumor necrosis factor (TNF)-α was as assessed in freshly isolated and toll-like receptor (TLR) ligand-stimulated cells. Results: The percentages of total NK cells and NKT cells did not significantly differ between CD patients and CTR. In active CD, the fractions of NKp30+ NK cells, NKG2D+ NK cells and NKG2D+ NKT cells were significantly increased as compared to inactive CD patients and CTR. In contrast, CD-associated inflammation was marked by diminished presence of NKG2A+ NK cells and NKG2A+ NKT cells. The fractions of NK cells and NKT cells expressing either NKp44 or NKp46 did not differ between CD and controls, but in CD less NK cells and NKT cells co-expressed these receptors. NKp44/NKp46-double positive cells produced granzyme B and IL-22 but not TNF-α and responded to TLR ligands with enhanced expression of granzyme B. Conclusions: These data indicate that active phase of CD associates with reduced presence of NKp44/NKp46-double positive NK cells and NKT cells in the epithelial compartment

IL-21 as a therapeutic target in inflammatory disorders

Introduction: IL-21, a cytokine produced by activated CD4⁺ cells, activated natural killer T cells and T helper cells in the germinal centers, is involved in the control of the function of both immune and parenchymal cells. Areas covered: IL-21 is overproduced in many chronic inflammatory disorders, including inflammatory bowel diseases, psoriasis, rheumatoid arthritis, type I diabetes and systemic lupus erythematosus, and studies in experimental models indicate that IL-21 plays an important role in sustaining tissue-damaging immune responses in such pathologies. However, genetic deficiency of IL-21 associates with inflammatory bowel diseases and blockade of IL-21 in the early phases exacerbates the disease progression in some models of rheumatoid arthritis and systemic lupus erythematosus, thus suggesting a dual role of IL-21 in the control of immune-mediated diseases. IL-21 can exert additional protective functions for the host as it promotes cytotoxic responses against tumors and viruses. Expert opinion: We here review the available data on the role of IL-21 in chronic inflammatory diseases and discuss the therapeutic benefit of IL-21 inhibitors in such diseases as well as the potential risks of such treatments

Old and New Lymphocyte Players in Inflammatory Bowel Disease

Polge Henri. Les toponymes en -beuf. Lettre de M. H. Polge, 6 août 1961. In: Revue Internationale d'Onomastique, 14e année N°2, juin 1962. p. 138