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ABSTRACT: The presentation of soluble model food antigens to the intestinal immune system typically induces antigen-specific systemic nonresponsiveness. Yet, the gut-associated lymphoid tissue (GALT) must launch an effective attack against potentially invasive pathogens even as it avoids mounting a response to innocuous food antigens. Although the mechanism by which the GALT is able to recognize and respond to these different forms of antigen is not clear, recent studies have shown that, initially, both tolerogenic and immunogenic forms of orally administered antigen elicit transient T-cell activation and proliferation. The unique microenvironment of the GALT plays a central role in determining whether functional T-cell anergy or adaptive immunity is the ultimate response. Administration of model food proteins with adjuvants (microbial products that activate the innate immune system) induces a productive immune response to this normally tolerogenic form of antigen. Recent work from our laboratory has shown that an ongoing enteric infection can itself act as an adjuvant and prime for a response to an orally administered soluble protein antigen.
Critical Reviews in Immunology 02/2001; 21(1-3):121-31. · 3.32 Impact Factor
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ABSTRACT: Oral administration of soluble protein Ags typically induces Ag-specific systemic nonresponsiveness. However, we have found that feeding a model food protein, OVA, to helminth-infected mice primes for a systemic OVA-specific Th2 response. In this report we show that, in addition to creating a Th2-priming cytokine environment, helminth infection up-regulates costimulatory molecule expression on mucosal, but not peripheral, APCs. To examine the consequences of mucosal infection for the T cell response to orally administered Ag, we adoptively transferred transgenic, OVA-specific, T cells into normal mice. We found that helminth infection enhances the expansion and survival of transgenic T cells induced by Ag feeding. Transfer of 5,6-carboxyfluorescein diacetate succinimidyl ester-labeled donor cells showed that T cell proliferation in response to Ag feeding takes place primarily in the mesenteric lymph nodes. Upon subsequent peripheral exposure to Ag in adjuvant, the proliferative capacity of the transferred transgenic T cells was reduced in noninfected mice that had been fed OVA. Helminth infection abrogated this reduction in proliferative capacity. Our data suggests that enteric infection can act as an adjuvant for the response to dietary Ags and has implications for allergic responses to food and the efficacy of oral vaccination.
The Journal of Immunology 01/2001; 165(11):6174-82. · 5.79 Impact Factor
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ABSTRACT: Although immunologists typically examine immune responses in peripheral lymphoid tissues, mucosal surfaces are the first sites at which most antigens are encountered. The role of lymphocytes in the gut-associated lymphoid tissue (GALT) in the production of secretory IgA has been well characterized. Although T cells of the GALT are located in areas likely to have a key role in cell-mediated immunity at mucosal surfaces, the ways in which these cells help defend against mucosal infection are only beginning to be understood. This review examines mucosal T-cell responses to enteric infection with bacteria, viruses, and parasites.
Current Opinion in Gastroenterology 12/1999; 15(6):529-33. · 4.19 Impact Factor
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ABSTRACT: Intragastric administration of soluble protein Ags results in peripheral tolerance to the fed Ag. To examine the role of cytokine regulation in the induction of oral tolerance, we fed OVA to mice deficient in Th1 (Stat 4-/-) and Th2 (Stat 6-/-) cells and compared their response to that of normal BALB/c controls. We found that, in spite of these deficiencies, OVA-specific peripheral cell-mediated and humoral nonresponsiveness was maintained in both Stat 4-/- and Stat 6-/- mice. In the mucosa, both Peyer's patch T cell proliferative responses and OVA-specific fecal IgA were reduced in Stat 4-/- and Stat 6-/- mice fed OVA but not in normal BALB/c controls. Mucosal, but not peripheral, nonresponsiveness was abrogated by the inclusion of a neutralizing Ab to TGF-beta in the culture medium. Our results show that, in the periphery, tolerance to oral Ag can be induced in both a Th1- or Th2-deficient environment. In the mucosa, however, the absence of Th1 and Th2 cytokines can markedly affect this response, perhaps by regulation of TGF-beta-secreting cells.
The Journal of Immunology 06/1999; 162(9):5143-8. · 5.79 Impact Factor
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ABSTRACT: A fascinating feature of the intestinal mucosal immune system is its ability to guard against invasion by pathogens while avoiding a response to the many potential Ags present in food. The phenomenon of systemic tolerance after oral administration of protein Ags is well documented, but the cellular and molecular basis for the observed nonresponsiveness is not fully understood. To gain insight into the role of the mucosal microenvironment in the induction of orally induced nonresponsiveness, we attempted to induce tolerance to OVA in mice primed for a Th2-biased mucosal immune response by infection with the nematode parasite Heligmosomoides polygyrus. We found that oral tolerance for Th1-type responses to OVA is maintained when OVA is fed during the peak of the mucosal immune response to H. polygyrus. Tolerance for Th2 cytokine responses or a Th2-dependent isotype of IgG is not induced in this Th2-biased mucosal environment. Treatment of infected mice with rIL-12 to reverse the Th2 polarity of the parasite-specific immune response restores tolerance of both Th1 and Th2 responses to OVA. We conclude that the polarized Th2 response induced by this enteric infection plays a central role in determining whether or not systemic tolerance is induced. Our results imply that attempts to use oral administration of Ag to suppress systemic immune responses will be influenced strongly by the presence of mucosal infection.
The Journal of Immunology 03/1998; 160(5):2449-55. · 5.79 Impact Factor
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ABSTRACT: This study examined whether the impaired immune responses in zinc deficient- and/or energy-restricted mice exposed to a challenge infection of Heligmosomoides polygyrus might be associated with reduced numbers of spleen cells, altered proportions of spleen cell subpopulations and/or altered function of the T cells or antigen-presenting cells (APC). Female BALB/c mice were given free access to either a zinc-sufficient (60 mg zinc/kg diet, Zn+) or a zinc-deficient diet (0.75 mg zinc/kg diet, Zn-) or were pair-fed (PF) the zinc-sufficient diet. Significant differences in parasite burdens were observed. Worm numbers were lowest in Zn+ mice, intermediate in the PF mice and highest in the Zn- mice, showing that both zinc deficiency and energy restriction reduced protective immunity against the gastrointestinal nematode H. polygyrus. Although the absolute numbers of spleen cells were reduced in both Zn- and energy-restricted (PF) mice, neither deficiency altered the phenotypic distribution of the subpopulations of positive marker cells in the spleen. In vitro functional assays using a 1:1 ratio of APC:T cells showed that T-cell proliferation in response to parasite antigen (Ag) was impaired by a dietary effect of zinc deficiency on T cells and of energy restriction and zinc deficiency on APC function. Consequences of the nutritional deficiencies on cytokine production in response to parasite antigen were more complex: zinc deficiency reduced T-cell function [interleukin-4 and interleukin-5 (IL-4 and IL-5) production], and both nutritional deficits depressed APC functions [IL-4, IL-5, and interferon-gamma (IFN-gamma) production] and T-cell function (IFN-gamma production). Thus, this study showed that zinc deficiency and energy restriction played identifiably distinct roles in regulating host immune responses against the gastrointestinal nematode H. polygyrus.
Journal of Nutrition 02/1998; 128(1):20-7. · 3.92 Impact Factor
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ABSTRACT: This study characterized the consequences of zinc-sufficient (Zn+, 60 mg zinc/kg diet, ad libitum), zinc-deficient (Zn-075 mg zinc/kg diet, ad libitum) and energy-restricted (ER, 60 mg zinc/kg diet which was restricted to match food intake of Zn- mice) diets on the in vivo and in vitro immune response of BALB/c mice during both primary and challenge infection with Heligmosomoides polygyrus. In Zn+ mice, both primary and challenge infection with H. polygyrus induced not only a strong Th2 response (IgE, IgG1, eosinophilia, IL-4, IL-5, IL-10), but also elements of a TH1 response (IgG3, IFN-gamma). Zinc deficiency significantly depressed Th2-dependent antibody production during both primary and challenge infection, and reduced mitogen and antigen-induced T cell proliferation during the challenge infection. Th2 cytokine production was reduced by zinc deficiency (IL-4), energy restriction (IL-5) and by zinc deficiency possibly in combination with energy restriction (IL-10) during the primary infection whereas TH1 cytokine production (IFN-gamma) was depressed during the challenge infection by zinc deficiency, possibly together with energy restriction. Both zinc deficiency and energy restriction reduced eosinophilia with the more profound effect being exerted by zinc deficiency. Thus, both zinc deficiency and its concurrent energy restriction modify immune responses in the mice during primary and challenge infection with H. polygyrus.
Parasite Immunology 09/1997; 19(8):363-73. · 2.60 Impact Factor
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ABSTRACT: The objectives of this study were (1) to determine the impact of severe zinc deficiency on the establishment, growth, survival and reproduction of Heligmosomoides polygyrus in the laboratory mouse, during both primary and challenge infection protocols, and (2) to determine whether the observed effects resulted from zinc deficiency per se, or from the accompanying energy restriction. Three diet groups were used: zinc-sufficient (Zn+:60 mg zinc/kg diet), zinc-deficient (Zn-:0.75 mg zinc/kg diet) and energy restricted (ER:60 mg zinc/kg diet pair fed to Zn- mice). Neither Zn- nor ER influenced the establishment of the parasite during a primary infection. However, both significantly influenced the early development of the parasite. The proportion of adult worms recovered 9 days post-infection (p.i.) was highest in Zn- mice, intermediate in ER mice and lowest in Zn+ mice. Worms were also distributed more distally in the intestine of the Zn- mice and worm survival was highest in Zn- mice, intermediate in ER mice and lowest in Zn+ mice at both 4 and 5 weeks p.i. Although the length of female worms was reduced in Zn- mice, neither per capita fecundity nor egg viability was affected by zinc deficiency. Energy restriction, on the other hand, significantly reduced worm fecundity at 5 weeks post-primary infection, but had no effect on egg viability. Zinc concentration of adult H. polygyrus was similar among dietary groups. The effects of zinc deficiency and energy restriction were also investigated 4 and 5 weeks after a challenge infection. Whereas strong host resistance was evident in Zn+ and ER mice, based on comparison of worm numbers between challenged mice and primary infection controls, no evidence of resistance was detected in Zn- mice. As in the primary infection, female worms were shorter in Zn- mice than in ER and Zn+ mice, and energy restriction but not zinc deficiency significantly affected per capita fecundity. However, in contrast to the primary infection, ER mice had elevated rather than reduced fecundity. This study demonstrates a complex interaction between H. polygyrus and zinc and energy restriction, and highlights the importance of controlling for reduced food intake in nutrition-infection studies.
Parasitology 07/1995; 110 ( Pt 5):599-609. · 2.96 Impact Factor
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ABSTRACT: This study was designed to determine whether severe zinc deficiency would prolong the course of a primary Heligmosomoides polygyrus infection in mice, and whether this could be related to impaired T cell function. Female BALB/c mice were fed a zinc-sufficient (Zn+; 60 mg/kg), a zinc-deficient (Zn-; 0.75 mg/kg) or an energy restricted (PF; 60 mg zinc/kg) diet. After four weeks, some mice in each dietary group were given a primary infection with 100 larvae; nutritional, parasitological and immunological parameters were assayed over the following five weeks. Liver zinc concentrations were significantly reduced in Zn- mice compared with Zn+ mice. In certain cases, PF mice also had reduced liver zinc concentrations, showing the negative effects of restricted food intake on zinc status. Zinc deficiency prolonged the course of a primary infection, with the effects being most evident five weeks post-infection when Zn+ mice had only 40% as many worms as Zn- mice. Parasite infection induced strong immunological responses in Zn+ mice in contrast to Zn- mice. The reduced production of IL-4 and IFN-gamma, the reduced peripheral eosinophilia and reduced serum levels of IgE and IgG1 in Zn- mice were attributed to the zinc deficiency, whereas the reduced delayed type hypersensitivity response to parasite antigen and reduced production of IL-5 were in certain instances attributed to reduced energy intake rather than zinc deficiency. These results show that zinc deficiency significantly impairs functions normally attributed to both Th1 and Th2 cell populations, and that these alterations are associated with elevated worm numbers in zinc-deficient mice.
Parasite Immunology 08/1994; 16(7):339-50. · 2.60 Impact Factor
