Dendritic cells (DCs) control the type and location of immune responses. Ulcerative colitis (UC) is considered a Th2 disease mediated by IL-13 where up to one third of patients can develop extraintestinal manifestations. Colonic biopsies from inflamed and noninflamed areas of UC patients were cultured in vitro and their supernatants were used to condition human blood enriched DCs from healthy controls. Levels of IL-13 in the culture supernatants were below the detection limit in most cases and the cytokine profile suggested a mixed profile rather than a Th2 cytokine profile. IL-6 was the predominant cytokine found in inflamed areas from UC patients and its concentration correlated with the Mayo endoscopic score for severity of disease. DCs conditioned with noninflamed culture supernatants acquired a regulatory phenotype with decreased stimulatory capacity. However, DCs conditioned with inflamed culture supernatants acquired a proinflammatory phenotype with increased expression of the skin-homing chemokine CCR8. These DCs did not have decreased T-cell stimulatory capacity and primed T cells with the skin-homing CLA molecule in an IL-6-dependent mechanism. Our results highlight the role of IL-6 in UC and question the concept of UC as a Th2 disease and the relevance of IL-13 in its etiology.Keywords: Dendritic cells r IL-6 r Mucosal immunity r Intestinal immunity r Ulcerative colitis Correspondence: Prof. Stella C. Knight e-mail: s.knight@imperial.ac.uk IntroductionThe gastrointestinal tract is in contact with a wide variety of commensal microbiota and diverse pathogens, and therefore C 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim www.eji-journal.eu 1338 David Bernardo et al. Eur. J. Immunol. 2012. 42: 1337-1353 requires a balance to be maintained between immunity and immune tolerance; the lack of immune responses against food antigens and/or the commensal microbiota is essential to maintain the homeostasis of the gastrointestinal tract [1]. Ulcerative colitis (UC) is a form of inflammatory bowel disease (IBD), traditionally related to a Th2 cytokine profile mediated by 3], where immune homeostasis of the gastrointestinal tract is compromised. Up to 1/3rd of UC patients can develop extraintestinal manifestations with the skin being one of such tissues [4,5].Dendritic cells (DCs) are the most potent antigen presenting cells and determine the nature and type of immune responses [6,7]. Intestinal DCs control immune tolerance in the gastrointestinal tract [8][9][10]. DCs also maintain immune responses localized to specific tissues, since they imprint specific tissue-homing profiles on stimulated T cells [11]. Retinoic acid (RA), the active form of vitamin A following dehydrogenization by the RALDH2 enzyme controls some of the mechanisms of immune homeostasis of the gut [12][13][14]. RA-producing DCs mediate the IgA switching of B cells [15], the generation of T cells with a regulatory phenotype [10], and the imprinting of gut-homing markers on B and T cells [16,17], thereby keeping tolerogenic immune responses com...
Background & AimsMost knowledge about gastrointestinal (GI)-tract dendritic cells (DC) relies on murine studies where CD103+ DC specialize in generating immune tolerance with the functionality of CD11b+/− subsets being unclear. Information about human GI-DC is scarce, especially regarding regional specifications. Here, we characterized human DC properties throughout the human colon.MethodsPaired proximal (right/ascending) and distal (left/descending) human colonic biopsies from 95 healthy subjects were taken; DC were assessed by flow cytometry and microbiota composition assessed by 16S rRNA gene sequencing.ResultsColonic DC identified were myeloid (mDC, CD11c+CD123−) and further divided based on CD103 and SIRPα (human analog of murine CD11b) expression. CD103-SIRPα+ DC were the major population and with CD103+SIRPα+ DC were CD1c+ILT3+CCR2+ (although CCR2 was not expressed on all CD103+SIRPα+ DC). CD103+SIRPα- DC constituted a minor subset that were CD141+ILT3−CCR2−. Proximal colon samples had higher total DC counts and fewer CD103+SIRPα+ cells. Proximal colon DC were more mature than distal DC with higher stimulatory capacity for CD4+CD45RA+ T-cells. However, DC and DC-invoked T-cell expression of mucosal homing markers (β7, CCR9) was lower for proximal DC. CCR2 was expressed on circulating CD1c+, but not CD141+ mDC, and mediated DC recruitment by colonic culture supernatants in transwell assays. Proximal colon DC produced higher levels of cytokines. Mucosal microbiota profiling showed a lower microbiota load in the proximal colon, but with no differences in microbiota composition between compartments.ConclusionsProximal colonic DC subsets differ from those in distal colon and are more mature. Targeted immunotherapy using DC in T-cell mediated GI tract inflammation may therefore need to reflect this immune compartmentalization.
Immunogenic cell death (ICD) elicited by cancer therapy reshapes the tumor immune microenvironment. A long-term adaptative immune response can be initiated by modulating cell death by therapeutic approaches. Here, the major hallmarks of ICD, endoplasmic reticulum (ER) stress, and damage-associated molecular patterns (DAMPs) are correlated with ICD inducers used in clinical practice to enhance antitumoral activity by suppressing tumor immune evasion. Approaches to monitoring the ICD triggered by antitumoral therapeutics in the tumor microenvironment (TME) and novel perspective in this immune system strategy are also reviewed to give an overview of the relevance of ICD in cancer treatment.
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