An essential role for interleukin 10 in the function of regulatory T cells that inhibit intestinal inflammation.

A T helper cell type 1-mediated colitis develops in severe combined immunodeficient mice after transfer of CD45RB(high) CD4(+) T cells and can be prevented by cotransfer of the CD45RB(low) subset. The immune-suppressive activities of the CD45RB(low) T cell population can be reversed in vivo by administration of an anti-transforming growth factor beta antibody. Here we show that interleukin (IL)-10 is an essential mediator of the regulatory functions of the CD45RB(low) population. This population isolated from IL-10-deficient (IL-10(-/-)) mice was unable to protect from colitis and when transferred alone to immune-deficient recipients induced colitis. Treatment with an anti-murine IL-10 receptor monoclonal antibody abrogated inhibition of colitis mediated by wild-type (WT) CD45RB(low) CD4(+) cells, suggesting that IL-10 was necessary for the effector function of the regulatory T cell population. Inhibition of colitis by WT regulatory T cells was not dependent on IL-10 production by progeny of the CD45RB(high) CD4(+) cells, as CD45RB(low) CD4(+) cells from WT mice were able to inhibit colitis induced by IL-10(-/-) CD45RB(high) CD4(+) cells. These findings provide the first clear evidence that IL-10 plays a nonredundant role in the functioning of regulatory T cells that control inflammatory responses towards intestinal antigens.

Leishmania major infection in interleukin-4 and interferon-gamma depleted mice.

The outcome of experimental Leishmania major infection in mice is closely correlated with the type of CD4+ helper T cell (Th) response. Whereas a Th1 response is host protective, a Th2 response leads to a disseminated, fatal course of disease. Previous studies in this murine model have shown, that the two prominent Th1 and Th2 cytokines, interferon (IFN)-gamma and interleukin (IL)-4, themselves play a major role in the determination of the resulting Th response. Treatment of susceptible mouse strains (BALB/c) with anti-IL-4 induces a Th1 response, allowing the animals to cure the infection. Treatment of resistant strains (e.g. C3H/HeN) with anti-IFN-gamma induces a Th2 response with dissemination of the disease. In this report, we investigated the course of infection and Th response in susceptible and resistant mice treated with anti-IL-4 and anti-IFN-gamma simultaneously. Both mouse strains showed an initial exacerbation of the disease and an overall reduced cytokine response early after infection. Later during infection both strains had a strong Th1 response that was resulting in cure of disease in C3H/HeN mice. BALB/c mice however, could not control the spread of infection despite the strong Th1 response.

Experimental Leishmania major infection in mice: role of IL-10.

L. major infection of mice induces polarized Th1 and Th2 responses that are correlated with healing of the infection (Th1) or a fatal disease (Th2). The Th subset specific cytokines, IFNgamma and IL-4, themselves were shown to be important factors for the differentiation into the Th1 and Th2 pathways during infection. We studied the role of the Th2 cytokine IL-10 during leishmania infection: removal of endogenous IL-10 by anti-IL-10 treatment did not alter the Th2 cytokine pattern in non-healer mice nor did it modulate DTH reactivity, IgE production or fatal disease progression, but partially blocked the IFNgamma inhibiting effect of rIL-4 in healer mice. During chronic infection similar amounts of IL-10 were produced in both healer and non-healer mice. However, at early time-points during infection IL-10 production was significantly higher in the non-healer Th2 responder animals. IL-10 production in vitro caused significant inhibition of in vitro IFNgamma production. In conclusion IL-10, unlike IL-4 and IFNgamma, does not seem to play a readily detectable role in the Th subset differentiation during L. major infection. However, the high production of IL-10 early during infection in non-healer mice and inhibition of leishmania-specific IFNgamma production may contribute to drive the immune response towards a Th2 response.

A transgenic model to analyze the immunoregulatory role of IL-10 secreted by antigen-presenting cells.

IL-10 is a cytokine secreted by a wide variety of cells type that has pleiotropic stimulatory and suppressive activities on both lymphoid and myeloid cells in vitro. To analyze the consequences of high IL-10 secretion by APCs in immune responses, we produced transgenic mice expressing human IL-10 directed by the MHC class II Ea promoter. Despite alterations in the development of T and B cells, no gross abnormalities were detected in peripheral lymphocyte populations or serum Ig levels. However, when immunized using conditions that give either a Th2-type or a Th1-type response, IL-10 transgenic mice failed to mount a significant T or B cell immune response to OVA. IL-10 transgenic mice were also highly susceptible to infection with intracellular pathogens like Listeria monocytogenes or Leishmania major, in contrast to IL-10 transgenic mice, where the transgene was express in T cells. Finally, the recently described stimulatory effect of IL-10 on CD8+ T cells was confirmed by the ability of IL-10 transgenic mice to limit the growth of immunogenic tumors by a CTL-mediated mechanism. These results demonstrate, that, depending on the type of immune response, IL-10 can mediate immunosuppressive or immunostimulatory activities in vivo.

CD38+ CD45RB(low) CD4+ T cells: a population of T cells with immune regulatory activities in vitro.

An antibody reactive with CD38 revealed both phenotypic and functional heterogeneity amongst CD45RB(low) cells. Functional analysis of the CD38+ and CD38- fractions showed that the latter contained T cells which responded to recall antigens and produced high levels of cytokine in response to polyclonal stimulation. In contrast, the CD38+ population failed to proliferate or to produce detectable levels of cytokines. Despite appearing unresponsive, the CD38+ population significantly inhibited anti-CD3-induced proliferation and cytokine secretion by the reciprocal CD38- population. Immune suppression required stimulation through the TCR and was dependent on a physical interaction between regulatory and responding CD4+ populations. It did not involve killing of the responding T cells or secretion of IL-10 or TGF-beta. Despite some similarities there is no direct correlation between the in vitro suppression characteristic of the CD38+ CD45RB(low) subset and in vivo suppression which has been shown to be mediated by unseparated CD45RB(low) CD4+ T cells. However, these results demonstrate that two functionally distinct subsets of T cells reside within the antigen-exposed or CD45RB(low) CD4+ T cell population and are thus generated in vivo: (1) conventional memory T cells which proliferate and secrete cytokines in response to activation and (2) a population of regulatory T cells which inhibit T cell activation in vitro. Antibodies reactive with CD38 may provide a useful tool with which to study the role of these T cell subsets in the induction and regulation of the immune response.

Serial backcross mapping of multiple loci associated with resistance to Leishmania major in mice.

Resistance or susceptibility of inbred mouse strains to the parasite Leishmania major correlates with CD4+ T cell responses of the Th1 or Th2 subsets, respectively. To evaluate the genetic basis for this difference, resistant B10.D2 mice were backcrossed onto susceptible BALB/c mice for five generations with selection for resistance. Candidate resistance loci were identified by high frequency of heterozygosity in resistant N5 backcross mice. Loci on chromosomes 6, 7, 10, 11, 15, and 16 were associated with resistance, demonstrating the multigenic nature of this phenotype. The presence of all six loci was not necessary to confer resistance and no single locus was required. Rather, a variety of combinations of these loci may be capable of interacting to confer resistance.

A critical role for transforming growth factor-beta but not interleukin 4 in the suppression of T helper type 1-mediated colitis by CD45RB(low) CD4+ T cells.

A T helper type 1 (Th1)-mediated colitis with similarities to inflammatory bowel disease in humans developed in severe combined immunodeficiency mice reconstituted with CD45RB(high) CD4+ splenic T cells and could be prevented by cotransfer of CD45RB(low) CD4+ T cells. Inhibition of this Th1 response by the CD45RB(low) T cell population could be reversed in vivo by an anti-transforming growth factor (TGF) beta antibody. Interleukin (IL) 4 was not required for either the differentiation of function of protective cells as CD45RB(low) CD4+ cells from IL-4-deficient mice were fully effective. These results identify a subpopulation of peripheral CD4+ cells and TGF-beta as critical components of the natural immune regulatory mechanism, which prevents the development of pathogenic Th1 responses in the gut, and suggests that this immunoregulatory population is distinct from Th2 cells.

Inflammatory bowel disease in C.B-17 scid mice reconstituted with the CD45RBhigh subset of CD4+ T cells.

Chronic inflammation developed spontaneously in the large intestine of C.B-17 scid mice restored with the CD45RBhigh subset of CD4+ T cells obtained from normal BALB/c mice. The inflammation, which extended diffusely from the cecum to the rectum, was localized to the lamina propria of mildly affected mice but became transmural in severely affected mice. Immunohistochemical and flow cytometric analyses showed that the inflammatory infiltrate contained numerous macrophages accompanied by moderate numbers of activated CD4+ lymphocytes. Some mice also had scattered multinucleated giant cells. Mucin depletion and epithelial hyperplasia resulting in glandular elongation and mucosal thickening were also consistently seen. Less frequent findings included ulceration with fibrosis, crypt abscesses, crypt loss, and granulomatous inflammation. Immunofluorescent analysis of inflamed large intestinal sections demonstrated increased epithelial expression of major histocompatibility class II antigens. The changes in the large intestine of these mice are similar to those seen in patients with idiopathic inflammatory bowel disease (Crohn's disease and ulcerative colitis). This murine model may be useful for studying mucosal immunoregulation as it relates to the pathogenesis and treatment of chronic inflammatory bowel diseases in the large intestine of human patients.

Inhibition of Th1 responses prevents inflammatory bowel disease in scid mice reconstituted with CD45RBhi CD4+ T cells.

We have described a murine model of IBD that was induced in C.B-17 scid mice by transfer of the CD45RBhi subpopulation of CD4+ T cells from normal BALB/c mice and could be prevented by cotransfer of the CD45RBlo CD4+ T cell subset. Here we have dissected the mechanism of pathogenesis of IBD in this model and used this information for rational immunotherapy of the disease. CD4+ cells from diseased mice displayed a highly polarized Th1 pattern of cytokine synthesis upon polyclonal stimulation in vitro. The administration of anti-IFN gamma MAb to mice soon after T cell transfer prevented development of colitis for up to 12 weeks. Continual neutralization of TNF with anti-TNF MAbs reduced the incidence of severe disease; however, neutralization of TNF during only the first 3-4 weeks had no effect. Severe colitis was completely abrogated in mice treated systemically with rIL-10, but not with rIL-4.

Regulatory interactions between CD45RBhigh and CD45RBlow CD4+ T cells are important for the balance between protective and pathogenic cell-mediated immunity.

BALB/c mice infected with the intracellular protozoan Leishmania major mount a T helper cell 2 (Th2) response that fails to control growth of the parasite and results in the development of visceral leishmaniasis. Separation of CD4+ T cells into CD45RBhigh and CD45RBlow subsets showed that the L. major-specific Th2 cells were contained within the CD45RBlow population as these cells produced high levels of antigen-specific interleukin 4 (IL-4) in vitro and transferred a nonhealing response to L. major-infected C.B-17 scid mice. In contrast, the CD45RBhighCD4+ population contained L. major-reactive cells that produced interferon gamma (IFN-gamma) in vitro and transferred a healing Th1 response to L. major-infected C.B-17 scid mice. Transfer of the Th1 response by the CD45RBhigh population was inhibited by the CD45RBlow population by a mechanism that was dependent on IL-4. These data indicate that L. major-specific Th1 cells do develop in BALB/c mice, but their functional expression is actively inhibited by production of IL-4 by Th2 cells. In this response, the suppressed Th1 cells can be phenotypically distinguished from the suppressive Th2 cells by the level of expression of CD45RB. Although the CD45RBhigh population mediated a protective response to L. major, C.B-17 scid mice restored with this population developed a severe inflammatory response in the colon that was independent of L. major infection, and was prevented by cotransfer of the CD45RBlow population. The colitis appeared to be due to a dysregulated Th1 response as anti-IFN-gamma, but not anti-IL-4, prevented it. Taken together, the data show that the CD4+ T cell population identified by high level expression of the CD45RB antigen contains cells that mediate both protective and pathogenic Th1 responses and that the reciprocal CD45RBlow population can suppress both of these responses. Whether suppression of cell-mediated immunity is beneficial or not depends on the nature of the stimulus, being deleterious during L. major infection but crucial for control of potentially pathogenic inflammatory responses developing in the gut.

Phenotypically distinct subsets of CD4+ T cells induce or protect from chronic intestinal inflammation in C. B-17 scid mice.

CD4+ T cells in the mouse can be subdivided into two fractions based on the level of expression of the CD45RB determinant. Previous studies have shown that these subsets are functionally distinct. We have further characterized the properties of these subpopulations in vivo by injecting them into C. B-17 scid mice. The animals restored with the CD45RBhighCD4+ T cell population developed a lethal wasting disease with severe mononuclear cell infiltrates into the colon and elevated levels of IFN-gamma mRNA. In contrast, animals restored with the reciprocal CD45RBlow subset or with unfractionated CD4+ T cells did not develop the wasting or colitis. Importantly, the co-transfer of the CD45RBlow population with the CD45RBhigh population prevented the wasting disease and colitis. These data indicate that important regulatory interactions occur between the CD45RBhigh and CD45RBlowCD4+ T cell subsets and that disruption of this mechanism has fatal consequences.

A murine model of allergic bronchopulmonary aspergillosis with elevated eosinophils and IgE.

A model of allergic bronchopulmonary aspergillosis was developed by exposing BALB/c mice to Aspergillus fumigatus (AF) Ag. Animals immunized intranasally (i.n.) with soluble AF Ag produced low levels of serum IgE compared to animals given alum precipitated AF Ag i.p. The latter treatment also produced higher levels of serum IgG1 and AF-specific IgG1 than soluble AF given i.p. or i.n.. Blood and lung eosinophilia was detected in mice repeatedly exposed to AF by i.n. but not in the groups injected i.p. Particulate AF Ag-induced striking blood and lung eosinophilia and elevated levels of serum IgE in mice preexposed to AF Ag. The results indicate that route of inoculation and physical nature of Ag determine the immune response and can be manipulated to obtain enhanced IgE, eosinophils, or both in the animal model.