To respond or not to respond - a personal perspective of intestinal tolerance

For many years, the intestine was one of the poor relations of the immunology world, being a realm inhabited mostly by specialists and those interested in unusual phenomena. However, this has changed dramatically in recent years with the realization of how important the microbiota is in shaping immune function throughout the body, and almost every major immunology institution now includes the intestine as an area of interest. One of the most important aspects of the intestinal immune system is how it discriminates carefully between harmless and harmful antigens, in particular, its ability to generate active tolerance to materials such as commensal bacteria and food proteins. This phenomenon has been recognized for more than 100 years, and it is essential for preventing inflammatory disease in the intestine, but its basis remains enigmatic. Here, I discuss the progress that has been made in understanding oral tolerance during my 40 years in the field and highlight the topics that will be the focus of future research

Heat shock proteins induce T cell regulation of chronic inflammation

The significance of immune responses to certain heat shock proteins (HSPs) that develop in virtually all inflammatory diseases is only now becoming clear. In experimental models, HSPs prevent or arrest inflammatory damage, and initial clinical trials in chronic inflammatory disease have shown HSP peptides to promote production of anti‐inflammatory cytokines—indicating immunoregulatory potential. HSPs are ubiquitous self‐antigens that are highly expressed in inflamed tissues. The prokaryotic homologous proteins, present in every bacterial species, are dominantly immunogenic. This is striking, especially as these proteins have large areas of sequence homologies with the host (mammalian) counterparts. In several experimental models of autoimmune diseases, immunisation with bacterial HSPs inhibited disease development, as did oral/nasal administration. Based on the experimental evidence so far, it is tempting to speculate that: firstly, exposure to homologues of these self‐antigens, as present in, for instance, the bacterial intestinal flora, has a decisive impact on the regulation of self‐tolerance at the level of T cells; and secondly, such proteins or their derivative peptides may have a role in an antigen specific immunotherapy approach involving modulation of relevant T cells, without the immediate necessity of defining disease specific autoantigens. Recent findings in experimental asthma and atherosclerosis have indicated that the field of application of such immunotherapy can be broader than just autoimmunity

Cell stress induced HSP are targets of regulatory T cells: a role for HSP inducing compounds as anti-inflammatory immuno-modulators?

AbstractT cell responses to heat shock proteins (HSP) have disease suppressive activities through production of anti-inflammatory cytokines in patients and in models of inflammatory diseases. There is evidence that the anti-inflammatory activity of HSP-specific T cells depends on their recognition of endogenous HSP epitopes as expressed by stressed cells at sites of inflammation. Previously, we have demonstrated that such T cells can be induced by conserved sequences of microbial HSP. Now we propose that drug induced up-regulation of endogenous HSP can contribute to anti-inflammatory T cell regulation

CD62Lneg CD38+ expression on circulating CD4 + T cells identifies mucosally differentiated cells in protein fed mice and in human celiac disease patients and controls

Objectives: The aim of this study was to identify new markers of mucosal T cells to monitor ongoing intestinal immune responses in peripheral blood. Methods: Expression of cell-surface markers was studied in mice on ovalbumin (OVA)-specific T cells in the gut-draining mesenteric lymph nodes (MLN) after OVA feed. The effect of the local mucosal mediators retinoic acid (RA) and transforming growth factor-Β (TGF-Β) on the induction of a mucosal phenotype was determined in in vitro T-cell differentiation assays with murine and human T cells. Tetramer stainings were performed to study gluten-specific T cells in the circulation of patients with celiac disease, a chronic small-intestinal inflammation. Results: In mice, proliferating T cells in MLN were CD62LnegCD38 during both tolerance induction and abrogation of intestinal homeostasis. This mucosal CD62LnegCD38 T-cell phenotype was efficiently induced by RA and TGF-Β in mice, whereas for human CD4 T cells RA alone was sufficient. The CD4 CD62LnegCD38 T-cell phenotype could be used to identify T cells with mucosal origin in human peripheral blood, as expression of the gut-homing chemokine receptor CCR9 and Β 7 integrin were highly enriched in this subset whereas expression of cutaneous leukocyte-associated antigen was almost absent. Tetramer staining revealed that gluten-specific T cells appearing in blood of treated celiac disease patients after oral gluten challenge were predominantly CD4 CD62LnegCD38 . The total percentage of circulating CD62LnegCD38 of CD4 T cells was not an indicator of intestinal inflammation as percentages did not differ between pediatric celiac disease patients, inflammatory bowel disease patients and respective controls. However, the phenotypic selection of mucosal T cells allowed cytokine profiling as upon restimulation of CD62LnegCD38 cells interleukin-10 (IL-10) and interferon-γ (IFN-γ) transcripts were readily detected in circulating mucosal T cells. Conclusions: By selecting for CD62LnegCD38 expression that comprises 5-10% of the cells within the total CD4 T-cell pool we are able to highly enrich for effector T cells with specificity for mucosal antigens. This is of pivotal importance for functional studies as this purification enhances the sensitivity of cytokine detection and cellular activation

Intradermal injection of Hsp60 induces cytokine responses in canine atopic and healthy skin

The purpose of this study was to investigate the immunoregulatory potential of Hsp60 in the skin of dogs with atopic dermatitis. Three dogs with chronic atopic dermatitis and four healthy dogs were injected intradermally with Hsp60 and phosphate-buffered saline. Biopsies were taken before testing from non-injected control skin, lesional and non-lesional atopic skin, and 48 and 72 h after injection. Analysis of cytokine messenger RNA was performed using quantitative real-time polymerase chain reaction. Forty-eight hours after Hsp60 injection, a rise in interleukin (IL)-10 was found (P = 0.034) with the highest expression levels in non-lesional atopic and control skin. A rise of transforming growth factor beta (P = 0.015) and IL-12p40 (P = 0.017) was noticed 72 h after Hsp60 injection in control skin. No significant differences were observed for the expression of IL-4, IL-12p35, and interferon gamma. The results indicate that Hsp60 is able to induce cytokines of a regulatory and Th1 phenotype in the skin. Furthermore, this study seems to provide a first indication of deficient Hsp60 response in atopic dermatitis affected skin