Tolerance induced by inhaled antigen involves CD4+ T cells expressing membrane-bound TGF-β and FOXP3
Marina Ostroukhova, Carole Seguin-Devaux, Timothy B. Oriss, Barbara Dixon-McCarthy, Liyan Yang, Bill T. Ameredes, Timothy E. Corcoran, Anuradha Ray
Marina Ostroukhova, Carole Seguin-Devaux, Timothy B. Oriss, Barbara Dixon-McCarthy, Liyan Yang, Bill T. Ameredes, Timothy E. Corcoran, Anuradha Ray
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Article Immunology

Tolerance induced by inhaled antigen involves CD4+ T cells expressing membrane-bound TGF-β and FOXP3

Abstract

Under normal circumstances, the respiratory tract maintains immune tolerance in the face of constant antigen provocation. Using a murine model of tolerance induced by repeated exposure to a low dose of aerosolized antigen, we show an important contribution by CD4+ T cells in the establishment and maintenance of tolerance. The CD4+ T cells expressed both cell surface and soluble TGF-β and inhibited the development of an allergic phenotype when adoptively transferred to naive recipient mice. While cells expressing cell surface TGF-β were detectable in mice with inflammation, albeit at a lower frequency compared with that in tolerized mice, only those from tolerized mice expressed FOXP3. Blockade of TGF-β in vitro and in vivo interfered with immunosuppression. Although cells that expressed TGF-β on the cell surface (TGF-β+), as well as the ones that did not (TGF-β–), secreted equivalent levels of soluble TGF-β, only the former were able to blunt the development of an allergic phenotype in mice. Strikingly, separation of the TGF-β+ cells from the rest of the cells allowed the TGF-β– cells to proliferate in response to antigen. We propose a model of antigen-induced tolerance that involves cell-cell contact with regulatory CD4+ T cells that coexpress membrane-bound TGF-β and FOXP3.

Authors

Marina Ostroukhova, Carole Seguin-Devaux, Timothy B. Oriss, Barbara Dixon-McCarthy, Liyan Yang, Bill T. Ameredes, Timothy E. Corcoran, Anuradha Ray

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Administration of anti–TGF-β1 interferes with tolerance development in v...
Administration of anti–TGF-β1 interferes with tolerance development in vivo. Chicken IgY anti–TGF-β (50 ∝g/mouse) or matching isotype control was administered intraperitoneally into naive BALB/c mice at three time points: 1 hour prior to primary exposure to OVA, on day 5 of exposure, and 1 hour prior to first OVA/ alum immunization on day 21. On day 43, BAL was performed, serum was collected, and lungs were removed for histological evaluation. Shown is a representative experiment of two experiments, with three animals per group in each experiment. (A) IgE levels in blood and (B) cytokine (IL-13) levels in BAL fluid of animals in each group. Shown are mean plus or minus SD with three mice per group (*P < 0.05 versus levels in inflammation group; **P < 0.05 versus animals treated with isotype control). (C) Differential cell counts in BAL fluid. *P < 0.05 compared with inflammation group; **P < 0.05 compared with tolerized group. (D) Lung tissue histology. The grade of inflammation was +5 in all animals immunized for airway inflammation, less than +1 in tolerized animals and in animals that received the isotype control, and between +2 and +4 in mice that received anti–TGF-β1 Ab.