Janine Bilsborough

Interleukin 31, a cytokine produced by activated T cells, induces dermatitis in mice

T cell–derived cytokines are important in the development of an effective immune response, but when dysregulated they can promote disease. Here we identify a four-helix bundle cytokine we have called interleukin 31 (IL-31), which is preferentially produced by T helper type 2 cells. IL-31 signals through a receptor composed of IL-31 receptor A and oncostatin M receptor. Expression of IL-31 receptor A and oncostatin M receptor mRNA was induced in activated monocytes, whereas epithelial cells expressed both mRNAs constitutively. Transgenic mice overexpressing IL-31 developed severe pruritis, alopecia and skin lesions. Furthermore, IL-31 receptor expression was increased in diseased tissues derived from an animal model of airway hypersensitivity. These data indicate that IL-31 may be involved in promoting the dermatitis and epithelial responses that characterize allergic and non-allergic diseases.

Mucosal CD8α+ DC, with a plasmacytoid phenotype, induce differentiation and support function of T cells with regulatory properties

Repetitive stimulation of naïve T cells by immature splenic dendritic cells (DC) can result in the differentiation of T‐cell lines with regulatory properties. In the present study we identified a population of DC in the mucosae that exhibit the plasmacytoid phenotype, secrete interferon‐α (IFN‐α) following stimulation with oligodeoxynucleotides containing certain cytosine‐phosphate‐guanosine (CpG) motifs and can differentiate naïve T cells into cells that exhibit regulatory properties. Although these DC appear to be present in both spleen and mesenteric lymph nodes (MLN), only CpG‐matured DC from the MLN (but not the spleen) were able to differentiate naïve T cells into T regulatory 1‐like cells with regulatory properties. The activity of these DC failed to sustain robust T‐cell proliferation and thereby enhanced the suppressive efficacy of CD4+ CD25+ T regulatory cells. These DC are the major CD8α+ DC population in the Peyers patches (PP). Given their significant presence in mucosal tissue, we propose that these DC may provide a mechanistic basis for the homeostatic regulation in the gut by eliciting regulatory cell suppressor function and poorly supporting T helper cell proliferation at a site of high antigenic stimulation like the intestine.

Anti‐interleukin‐31‐antibodies ameliorate scratching behaviour in NC/Nga mice: a model of atopic dermatitis

Background:  Interleukin‐31 (IL‐31), a novel cytokine, is upregulated in atopic dermatitis skin lesions in humans and skin lesions in the NC/Nga mice, a murine model for atopic dermatitis.

Regulation of mucosal dendritic cell function by receptor activator of NF-kappa B (RANK)/RANK ligand interactions: impact on tolerance induction.

The mucosal immune system is uniquely equipped to discriminate between potentially invasive pathogens and innocuous food proteins. While the mechanisms responsible for induction of mucosal immunity vs tolerance are not yet fully delineated, recent studies have highlighted mucosal dendritic cells (DC) as being important in determining the fate of orally administered Ag. To further investigate the DC:T cell signals involved in regulating the homeostatic balance between mucosal immunity and tolerance, we have examined the expression and function of the TNFR family member receptor activator of NF-κB (RANK) and its cognate ligand, RANKL, in vitro and in vivo. Our data show that although DC isolated from mucosal lymphoid tissues expressed similar levels of surface RANK compared with DC isolated from peripheral lymphoid tissues, DC from the distinct anatomical sites displayed differential responsiveness to RANK engagement with soluble RANKL. Whereas splenic DC responded to RANKL stimulation with elevated IL-12 p40 mRNA expression, Peyer’s patch DC instead preferentially displayed increased IL-10 mRNA expression. Our data also show that the in vivo functional capacity of mucosal DC can be modulated by RANKL. Treatment with RANKL in vivo at the time of oral administration of soluble OVA enhanced the induction of tolerance in two different mouse models. These studies underscore the functional differences between mucosal and peripheral DC and highlight a novel role for RANK/RANKL interactions during the induction of mucosal immune responses.

Vstm3 is a member of the CD28 family and an important modulator of T-cell function

Members of the CD28 family play important roles in regulating T‐cell functions and share a common gene structure profile. We have identified VSTM3 as a protein whose gene structure matches that of the other CD28 family members. This protein (also known as TIGIT and WUCAM) has been previously shown to affect immune responses and is expressed on NK cells, activated and memory T cells, and Tregs. The nectin‐family proteins CD155 and CD112 serve as counter‐structures for VSTM3, and CD155 and CD112 also bind to the activating receptor CD226 on T cells and NK cells. Hence, this group of interacting proteins forms a network of molecules similar to the well‐characterized CD28–CTLA‐4–CD80–CD86 network. In the same way that soluble CTLA‐4 can be used to block T‐cell responses, we show that soluble Vstm3 attenuates T‐cell responses in vitro and in vivo. Moreover, animals deficient in Vstm3 are more sensitive to autoimmune challenges indicating that this new member of the CD28 family is an important regulator of T‐cell responses.

High antigen dose and activated dendritic cells enable Th cells to escape regulatory T cell-mediated suppression in vitro.

CD4+CD25+ regulatory T cells (Tregs) are critical for peripheral tolerance and prevention of autoimmunity. In vitro coculture studies have revealed that increased costimulation breaks Treg‐mediated suppression in response to anti‐CD3 or antigen. However, it was unclear whether loss of suppression arose from inactivation of Tregs or whether increased stimulationcaused Th cells to escape suppression. We have investigated conditions that allow or override Treg‐mediated suppression using DO11.10 TCR‐transgenic T cells and chicken ovalbumin peptide 323–339‐pulsed antigen‐presenting cells. Treg suppression of Th proliferation is broken with potent stimulation, using activated spleen cells and high antigen dose, but is intact at low antigen dose. Costimulation with CD80 and CD86 expressed on activated dendritic cells was essential for Th cell escape from suppression at a high antigen dose. Potently stimulated Tregs were functional since they reducedlevels of IL‐2, IFN‐γ, IL‐4 and Th CD25 expression in cocultures. Furthermore, Tregs responding to high antigen dose and activated splenocytes retained the ability to suppress proliferation, but only of Th cells responding to a sub‐optimal dose of independent antigen. Together, our results demonstrate that under conditions of strong antigen‐specific stimulation, Tregs remain functional, but Th cells escape Treg‐mediated suppression.

The mdr1a-/- mouse model of spontaneous colitis : A relevant and appropriate animal model to study inflammatory bowel disease

There are many types of colitis models in animals that researchers use to elucidate the mechanism of action of human inflammatory bowel disease (IBD). These models are also used to test novel therapeutics and therapeutic treatment regimens. Here, we will review the characteristics of the mdr1a−/− model of spontaneous colitis that we believe make this model an important part of the IBD researchers toolbox. We will also share new data that will reinforce the fact that this model is relevant in the study of IBD. Mdrla−/− mice lack the murine multiple drug resistance gene for P-glyco-protein 170 that is normally expressed in multiple tissues including intestinal epithelial cells. These mice spontaneously develop a form of colitis at around 12 wk of age. The fact that the complexity of this model mirrors the complexity of disease in humans, as well as recent literature that links MDR1 polymorphisms in humans to Crohns Disease and Ulcerative Colitis, makes this an appropriate animal model to study.

Getting to the guts of immune regulation.

The mechanisms controlling the balance between tolerance and active immunity in mucosal tissues are critical, but not well understood. Specifically, the normal healthy gut exhibits tolerance both to beneficial antigens derived from food and to innocuous antigens derived from commensal flora, but will mount active and protective immune responses against detrimental and damaging antigens from invading gut pathogens. When such immune control mechanisms go awry, the consequences can be devastating. Loss of tolerance to food antigens can manifest as food allergies, such as coeliac disease, that may afflict about 1 in every 300 persons in several countries in the Western World. Likewise, loss of tolerance to commensal flora may manifest as inflammatory bowel disease.

IL-31 Receptor (IL-31RA) Knockout Mice Exhibit Elevated Responsiveness to Oncostatin M

IL-31 signals through the heterodimeric receptor IL-31RA and oncostatin M receptor (OSMR), and has been linked with the development of atopic dermatitis, a Th2 cytokine-associated disease in humans. However, recent studies of IL-31RA knockout (KO) mice have suggested that IL-31 signaling may be required to negatively regulate Th2 type responses rather than exacerbate them. Because those studies were performed on genetically modified mice, we examined whether neutralizing IL-31 with a specific mAb would give similar results to IL-31RA KO mice in two Th2 cytokine-associated immune models. We report no difference in lymphocyte Th2-type cytokine production after Ag immunization between IL-31RA KO mice, mice treated with the IL-31 mAb, or control animals. Second, we tested whether the absence of the IL-31RA subunit in IL-31RA KO mice may allow for increased pairing of the OSMR subunit with another cytokine receptor, gp130, resulting in overrepresentation of the heterodimeric receptor for OSM and increased responsiveness to OSM protein. We found that intranasal OSM challenge of IL-31RA KO mice resulted in increased IL-6 and vascular endothelial growth factor production in the lung compared with wild-type littermate control animals. Moreover, PBS-challenged IL-31RA KO mice already had increased levels of vascular endothelial growth factor, which were further increased by OSM challenge. These data imply that IL-31RA–deficient mice produce increased levels of OSM-inducible cytokines during airway sensitization and challenge, which may be the driving force behind the apparent exacerbation of Th2-type inflammatory responses previously observed in these mice.

TACI-Ig prevents the development of airway hyperresponsiveness in a murine model of asthma

Background Increased levels of serum IgE are associated with greater asthma prevalence and disease severity. IgE depletion using an anti‐IgE monoclonal antibody has met with success in the treatment of moderate‐to‐severe and severe persistent allergic asthma.