F D Finkelman

IL-13, IL-4Rα, and Stat6 Are Required for the Expulsion of the Gastrointestinal Nematode Parasite Nippostrongylus brasiliensis

Although IL-4 induces expulsion of the gastrointestinal nematode parasite, Nippostrongylus brasiliensis, from immunodeficient mice, this parasite is expelled normally by IL-4-deficient mice. This apparent paradox is explained by observations that IL-4 receptor alpha chain (IL-4Ralpha)-deficient mice and Stat6-deficient mice fail to expel N. brasiliensis, and a specific antagonist for IL-13, another activator of Stat6 through IL-4Ralpha, prevents worm expulsion. Thus, N. brasiliensis expulsion requires signaling via IL-4Ralpha and Stat6, and IL-13 may be more important than IL-4 as an inducer of the Stat6 signaling that leads to worm expulsion. Additional observations made in the course of these experiments demonstrate that Stat6 signaling is not required for IL-4 enhancement of IgG1 production and actually inhibits IL-4-induction of mucosal mastocytosis.

Regulation and biological function of helminth-induced cytokine responses.

The immunological hallmarks of infection with parasitic helminths, namely eosinophilia, mastocytosis and increased IgE synthesis, all appear to be induced by cytokines from the TH2 subset of CD4+ T cells: IgE production is stimulated by interleukin 4 (IL-4), eosinophilia by IL-5 and mastocytosis by IL-3 and IL-4. Here, Fred Finkelman and colleagues argue that the functional significance of the eosinophilia-mastocytosis-IgE axis in helminth infection is unclear and suggest that in some worm infections TH2-cell cytokines may contribute to host protection, while in others they may promote parasite survival.

Distinct roles for IL-13 and IL-4 via IL-13 receptor α1 and the type II IL-4 receptor in asthma pathogenesis

IL-13 and IL-4 are central T helper 2 (Th2) cytokines in the immune system and potent activators of inflammatory responses and fibrosis during Th2 inflammation. Recent studies using Il13ra1−/− mice have demonstrated a critical role for IL-13 receptor (IL-13R) α1 in allergen-induced airway responses. However, these observations require further attention especially because IL-4 can induce similar lung pathology to IL-13, independent of IL-13, and is still present in the allergic lung. Thus, we hypothesized that IL-13Rα1 regulates IL-4-induced responses in the lung. To dissect the role of IL-13Rα1 and the type I and II IL-4Rs in experimental asthma, we examined lung pathology induced by allergen, IL-4, and IL-13 challenge in Il13ra1−/− mice. We report that IL-13Rα1 is essential for baseline IgE production, but Th2 and IgE responses to T cell-dependent antigens are IL-13Rα1-independent. Furthermore, we demonstrate that increased airway resistance, mucus, TGF-β, and eotaxin(s) production, but not cellular infiltration, are critically dependent on IL-13Rα1. Surprisingly, our results identify a CCR3- and IL-13Rα1-independent pathway for lung eosinophilia. Global expression profiling of lungs from mice stimulated with allergen or IL-4 demonstrated that marker genes of alternatively activated macrophages are differentially regulated by the type I and type II IL-4R. Taken together, our data provide a comprehensive mechanistic analysis of the critical role by which IL-13Rα1 mediates allergic lung pathology and highlight unforeseen roles for the type II IL-4R.

Effect of anti-interferon-γ and anti-interleukin-2 monoclonal antibody treatment on the development of actively and passively induced experimental allergic encephalomyelitis in the SJL/J mouse☆

SJL/J mice challenged with myelin basic protein (MBP) in complete Freunds adjuvant (CFA) developed only mild chronic-relapsing experimental allergic encephalomyelitis (EAE) with very low incidence. However, treatment of challenged mice with anti-interferon-gamma (IFN-gamma) monoclonal antibody (mAb) determined severe disease in all cases. Similarly, in passive EAE, the addition of anti-IFN-gamma to the in vitro MBP-activated cells at the time of transfer led to significant disease exacerbation in all recipients. The disease enhancing effect was observed only when the mAb was given at the time of active challenge or of passive transfer, but not at later times. Anti-interleukin-2 (IL-2) antibody had only a marginal effect in the active induction, but drastically reduced the manifestations of passive EAE, even when mixed with a disease-enhancing dose of anti-IFN-gamma. These findings support the notion that IL-2 is required for disease induction whereas IFN-gamma plays a disease-limiting role early in the development of EAE.

Effect of anti-interferon-γ monoclonal antibody treatment on the development of experimental allergic encephalomyelitis in resistant mouse strains

Immunization with myelin basic protein (MBP) in complete Freunds adjuvant failed to induce experimental allergic encephalomyelitis (EAE) in six resistant mouse strains studied: A/J, BALB/c C3H/HeJ, AKR, NZW and DBA/2. However, treatment of challenged mice with anti-interferon-gamma (IFN-gamma) monoclonal antibody (mAb) induced severe EAE in mice of all strains except AKR. Furthermore, anti-IFN-gamma mAb treatment led to increased disease incidence and severity in BALB/c mice challenged with the MBP peptide87-103, known to be encephalitogenic for the susceptible SJL strain. In three strains tested, anti-IFN-gamma mAb enhanced passively induced EAE in the A/J and C3H/HeJ but not in the BALB/c mice. All mice with clinically overt EAE had widespread histological lesions characterized by mononuclear cell infiltrates and focal demyelination. The results indicate that resistant strains are genetically capable of developing EAE, and that IFN-gamma can contribute to disease resistance.

Cytokines: Making the right choice

Fred Finkelmon and Joseph Urban propose that optimal host defense against different classes of parasite depends upon induction of different sets of immune effector mechanisms, which are, in turn, dependent upon secretion of different sets of cytokines. The authors suggest that hosts identify characteristics common to parasites of a given type as those triggers that stimulate secretion of the proper cytokine set.

Cutting Edge: IL-4 Receptor Expression by Non-Bone Marrow-Derived Cells Is Required to Expel Gastrointestinal Nematode Parasites

Expulsion of two gastrointestinal nematode parasites, Nippostrongylus brasiliensis and Trichinella spiralis, is similar in that both require IL-4Rα expression, but different in that T cells and mast cells are required for IL-4-induced expulsion of T. spiralis but not N. brasiliensis. To examine the role of IL-4Rα signaling in immunity to these parasites, we studied worm expulsion in chimeric mice that selectively expressed IL-4Rα on bone marrow-derived or non-bone marrow-derived cells. N. brasiliensis was expelled by mice that expressed IL-4Rα only on non-bone marrow-derived cells, but not by mice that expressed IL-4Rα only on bone marrow-derived cells. Although T. spiralis expulsion required IL-4Rα expression by both bone marrow- and non-bone marrow-derived cells, IL-4 stimulation eliminated the requirement for IL-4Rα expression by bone marrow-derived cells. Thus, direct IL-4Rα signaling of nonimmune gastrointestinal cells may be generally required to induce worm expulsion, even when mast cell and T cell responses are also required.

Production of interleukin-4 and other cytokines following stimulation of mast cell lines and in vivo mast cells/basophils

Interleukin-3 (IL-3)-dependent mast cell lines, upon stimulation by calcium ionophores or by Fc epsilon RI cross-linking, express mRNA for, and secrete, a distinct pattern of cytokines, similar to those secreted by cloned mouse T cells of the TH2 type. The mast-cell-derived cytokines include IL-3, IL-4, IL-5 and IL-6. Not only in vitro mast cell lines, but also in vivo derived peritoneal mast cells secrete cytokines. An in vivo derived cell, in mouse spleen and bone marrow, secretes IL-4 and other cytokines upon stimulation with calcium ionophores or by Fc epsilon RI cross-linking or Fc gamma RII cross-linking. The IL-4-producing cells are highly enriched in the Fc epsilon R+ subset of spleen and bone marrow cells. These Fc epsilon R+ cells produce large amounts of IL-4, and they have characteristics similar to those of immature mast cells and/or basophils. It is possible that cytokines produced by mast cells and/or basophils participate in allergic inflammatory diseases.

Heligmosomoides polygyrus: CD4+ but not CD8+ T cells regulate the IgE response and protective immunity in mice

Oral inoculation of BALB/c mice with infective larvae of Heligmosomoides polygyrus resulted in chronic infection characterized by the release of parasite eggs in the feces for several months. The actual number of eggs per gram of feces was dependent on the dose of the inoculum. Serum IgE in infected mice peaked at a level of greater than 70 micrograms/ml during Weeks 3 through 6 following inoculation, and high levels of IgE (greater than 40 micrograms/ml) persisted for over 14 weeks. Protective immune responses resulted in reduced egg production and the development of markedly fewer adult worms in the small intestines following a challenge inoculation. The role of CD4+ and CD8+ T cells in these responses was examined by depletion in vivo of either T cell subpopulation with rat mAb specific for the appropriate determinants. Mice treated with anti-CD4 during a primary infection had increased EPG which was due primarily to an increase in worm fecundity (eggs produced per adult female). A challenge inoculation of mice that had been cleared of the primary infection with an anthelmintic drug induced a protective response that reduced development of new adult worms by 70-80% and their fecundity by greater than 90%. This protective response was abrogated by injection of mice with anti-CD4. Serum IgE diminished when adult worms were removed after anthelmintic treatment. A more precipitous drop in serum IgE followed successive treatments of mice with an anthelmintic and anti-CD4. In addition, the anamnestic serum IgE response to a challenge inoculation was reduced by over 80% in anti-CD4-treated mice. Anti-CD8 treatment had no appreciable effect on the immunological or parasitological parameters measured following a challenge inoculation with H. polygyrus. Thus, CD4+ T cells regulate host protective immunity, worm fecundity, and IgE levels in an H. polygyrus infection. This experimental system may be particularly suitable for analysis of chronic nematode infections of humans and livestock because of the responsiveness of the parasite in vivo to changes in host immune function.

Arginase I Suppresses IL-12/IL-23p40–Driven Intestinal Inflammation during Acute Schistosomiasis

Alternatively activated macrophages prevent lethal intestinal pathology caused by worm ova in mice infected with the human parasite Schistosoma mansoni through mechanisms that are currently unclear. This study demonstrates that arginase I (Arg I), a major product of IL-4– and IL-13–induced alternatively activated macrophages, prevents cachexia, neutrophilia, and endotoxemia during acute schistosomiasis. Specifically, Arg I-positive macrophages promote TGF-β production and Foxp3 expression, suppress Ag-specific T cell proliferation, and limit Th17 differentiation. S. mansoni-infected Arg I-deficient bone marrow chimeras develop a marked accumulation of worm ova within the ileum but impaired fecal egg excretion compared with infected wild-type bone marrow chimeras. Worm ova accumulation in the intestines of Arg I-deficient bone marrow chimeras was associated with intestinal hemorrhage and production of molecules associated with classical macrophage activation (increased production of IL-6, NO, and IL-12/IL-23p40), but whereas inhibition of NO synthase-2 has marginal effects, IL-12/IL-23p40 neutralization abrogates both cachexia and intestinal inflammation and reduces the number of ova within the gut. Thus, macrophage-derived Arg I protects hosts against excessive tissue injury caused by worm eggs during acute schistosomiasis by suppressing IL-12/IL-23p40 production and maintaining the Treg/Th17 balance within the intestinal mucosa.