Keratinocytes are key players in chronic inflammatory skin diseases. A20 regulates NF-κB-dependent expression of proinflammatory genes and cell death, but the impact of its expression in keratinocytes on systemic inflammation and skin disorders has not been determined. Comparative transcriptomic analysis of microdissected epidermis showed that A20 is down-regulated in involved epidermis, but not in dermis, of psoriasis and atopic dermatitis patients, suggesting that loss of A20 expression in keratinocytes increases the vulnerability for psoriasis/atopic dermatitis induction. We have previously shown that epidermis-specific A20 knockout mice (A20) develop mild epidermal hyperplasia but no macroscopic skin inflammation. We now show that various cytokines and chemokines are up-regulated in A20 mouse skin. A20 mice also display systemic proinflammatory changes, even in the absence of skin immune cell infiltration, and an exacerbated disease severity upon induction of experimental psoriasis, atopic dermatitis, or skin barrier disruption. Keratinocytes showed increased proinflammatory gene expression in the absence of A20 in unstimulated and IL-17A-stimulated conditions, in part resulting from uncontrolled MyD88-dependent signaling. Our findings indicate that absence of A20 in keratinocytes leads to systemic inflammation at homeostatic conditions and is sufficient to exacerbate inflammatory skin disorders associated with different immune profiles by increasing cytokine and chemokine expression.
Summary Chronic inflammation may drive development of cancer as observed in inflammation‐induced colorectal cancer (CRC). Though immune cells can infiltrate the tumour microenvironment, cancer cells seem to evade anti‐tumour responses, which is one of the established hallmarks of cancer. Targeting the programmed cell death protein‐1 (PD‐1)/PD‐L1 signalling pathway is currently at the forefront in the development of anti‐tumour immunity‐based therapies for multiple malignancies. By blocking the immune‐checkpoint of activated T‐cells, it is possible to rewire the adaptive resistance induced by the PD‐1 ligands expressed in the tumour microenvironment. However, adverse immunotherapy‐modulated events could complicate the treatment of individuals with preexisting chronic inflammatory conditions. In this study, we investigated the expression of different systemic and mucosal T‐cell subsets during the course of azoxymethane (AOM)/dextran sulphate sodium (DSS)‐induced colitis and colitis‐associated CRC. In addition, we examined the expression of PD‐1 and its ligands PD‐L1 and PD‐L2 as well as other molecular targets related to T‐cell exhaustion. We found a significant increase in PD‐1 expression on all examined mucosal T‐cell subsets of the colon and the ileum, which correlated with disease progression. We also observed an upregulation of PD‐L1 and PD‐L2 mRNA expression throughout the AOM/DSS regime. Blocking PD‐1 signalling with an anti‐PD1 antibody did not affect the tumour burden in the AOM/DSS‐treated mice, but did potentiate the weight loss in the third DSS cycle, indicating possible immune‐mediated toxicity. This raises a concern for patients with colitis‐associated CRCs and should be further investigated.
An elevated level of the cytokine TL1A is known to be associated with several autoimmune diseases, e.g. rheumatoid arthritis and inflammatory bowel disease. However, the mode of action of TL1A remains elusive. In this study, we investigated the role of TL1A in a pro-inflammatory setting, using human leukocytes purified from healthy donors. We show that TL1A, together with IL-12, IL-15 and IL-18, directly induces the production of IL-6 and TNF-α from leukocytes. Interestingly, TL1A-induced IL-6 was not produced by CD14+ monocytes. We further show that the produced IL-6 is fully functional, as measured by its ability to signal through the IL-6 receptor, and that the induction of IL-6 is independent of TCR stimulation. Furthermore, the transcription factor PLZF was induced in stimulated cells. These results offer a substantial explanation for the role of TL1A, since TNF-α and IL-6 are directly responsible for much of the inflammatory state in many autoimmune diseases. Our study suggests that TL1A is a possible target for the treatment of autoimmune diseases.
TL1A is a proinflammatory cytokine, which is prevalent in the gut. High TL1A concentrations are present in patients with inflammatory bowel disease (IBD) and in IBD mouse models. However, the role of TL1A during steady-state conditions is relatively unknown. Here, we used TL1A knockout (KO) mice to analyse the impact of TL1A on the intestinal immune system and gut microbiota. The TL1A KO mice showed reduced amounts of small intestinal intraepithelial TCRγδ + and CD8 + T cells, and reduced expression of the activating receptor NKG2D. Moreover, the TL1A KO mice had significantly reduced body weight and visceral adipose tissue deposits, as well as lower levels of leptin and CXCL1, compared with wild-type mice. Analysis of the gut microbial composition of TL1A KO mice revealed a reduction of caecal Clostridial cluster IV, a change in the Firmicutes/Bacteroidetes ratio in caecum and less Lactobacillus spp. in the mucosal ileum. Our results show that TL1A deficiency impacts on the gut microbial composition and the mucosal immune system, especially the intraepithelial TCRγδ + T-cell subset, and that TL1A is involved in the establishment of adipose tissue. This research contributes to a broader understanding of TL1A inhibition, which is increasingly considered for treatment of IBD.Keywords: γδ T cells r Gut microbiota r Intraepithelial lymphocytes (IELs) r NKG2D r TL1A Additional supporting information may be found in the online version of this article at the publisher's web-site Correspondence: Peter Tougaard e-mail: peto@sund.ku.dk IntroductionAn increased production of proinflammatory cytokines is associated with the development of adiposity. The consequential impact of increased cytokine levels is especially pronounced in abdominal adipose tissue, and in the gut, and causes a chronic C 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim www.eji-journal.eu 866Peter Tougaard et al. Eur. J. Immunol. 2015. 45: 865-875 state of low-grade inflammation in the host [1,2]. This inflammatory state is associated with changes in the gut epithelial functions, composition of the gut microbiota and gut immune homeostasis [2][3][4]. TNF-α and other TNF family cytokines have especially been associated with this low-grade inflammatory state [2,4,5]. However, further studies about these cytokines and their role in low-grade inflammation are required. The proinflammatory cytokine TL1A is emerging as a new important player of the TNF superfamily. TL1A is prevalent in the intestine and tightly connected to inflammatory diseases of the gut, i.e. inflammatory bowel disease (IBD) [6][7][8]. However, the influence of TL1A on gut microbiota composition and low-grade inflammation remains elusive. TL1A is expressed by several different cell types, including endothelial cells and myeloid cells, such as dendritic cells and macrophages [6,9]. Multiple bacterial species from the gut have been shown to directly induce TL1A expression in monocytes and monocyte-derived dendritic cells [10]. The TL1A receptor, death receptor 3 (DR3), is primarily expre...
Cesarean section increases sensitivity to oxazolone-induced colitis in C57BL/6 mice
Children born by cesarean section (CS) have an increased risk of developing inflammatory bowel disease (IBD), possibly due to skewed microbial colonization during birth and consequently impaired bacterial stimulation of the developing immune system. The aim of this study was to investigate the association between CS and experimental colitis in a murine model of IBD. It was hypothesized that CS aggravates colonic inflammation due to a change in gut microbiota (GM) composition. C57BL/6 mice, delivered by CS or vaginal delivery (VD), were intra-rectally challenged with oxazolone at 8 weeks of age and monitored for colitis symptoms. The results showed that CS delivered mice experienced an increased body weight loss and colon weight, together with higher colonic concentrations of TNF-α and MPO compared with VD mice. Increased infiltration of inflammatory cells was present in CS delivered mice, as well as a downregulation in expression of the gut integrity genes occludin and tight junction protein 1 indicative of an impaired barrier function. The GM from CS delivered mice without colitis partly contributed to the increase in colitis symptoms when inoculated into germ-free recipient mice. In conclusion, CS increased sensitivity to oxazolone induced colitis in mice.
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