Thymocyte responsiveness to endogenous glucocorticoids is required for immunological fitness
Paul R. Mittelstadt, … , João P. Monteiro, Jonathan D. Ashwell
Paul R. Mittelstadt, … , João P. Monteiro, Jonathan D. Ashwell
Published June 1, 2012
Citation Information: J Clin Invest. 2012;122(7):2384-2394. https://doi.org/10.1172/JCI63067.
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Thymocyte responsiveness to endogenous glucocorticoids is required for immunological fitness

Abstract

Generation of a self-tolerant but antigen-responsive T cell repertoire occurs in the thymus. Although glucocorticoids are usually considered immunosuppressive, there is also evidence that they play a positive role in thymocyte selection. To address the question of how endogenous glucocorticoids might influence the adaptive immune response, we generated GRlck-Cre mice, in which the glucocorticoid receptor gene (GR) is deleted in thymocytes prior to selection. These mice were immunocompromised, with reduced polyclonal T cell proliferative responses to alloantigen, defined peptide antigens, and viral infection. This was not due to an intrinsic proliferation defect, because GR-deficient T cells responded normally when the TCR was cross-linked with antibodies or when the T cell repertoire was “fixed” with αβ TCR transgenes. Varying the affinity of self ligands in αβ TCR transgenic mice showed that affinities that would normally lead to thymocyte-positive selection caused negative selection, and alterations in the TCR repertoire of polyclonal T cells were confirmed by analysis of TCR Vβ CDR3 regions. Thus, endogenous glucocorticoids are required for a robust adaptive immune response because of their promotion of the selection of T cells that have sufficient affinity for self, and the absence of thymocyte glucocorticoid signaling results in an immunocompromised state.

Authors

Paul R. Mittelstadt, João P. Monteiro, Jonathan D. Ashwell

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Figure 4

TCR-transgenic GRlck-Cre T cells proliferate normally when challenged with antigen in vitro and in vivo.

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TCR-transgenic GRlck-Cre T cells proliferate normally when challenged wi...
(A) 5 × 104 B10.A WT or GRlck-Cre lymph node T cells from C57BL/6 P14 (left panel) or AND TCR mice (right panel) were incubated for 2 days with 5 × 105 irradiated WT C57BL/6 (P14) or B10.A (AND TCR) splenocytes in the presence of the indicated concentrations of antigen. (B and C) GR-deficient T cells have no intrinsic defect in ability to respond to antigen. (B) 5 × 105 WT (CD45.1+) and GRlck-Cre (Thy1.1+) P14 T cells were adoptively transferred into C57BL/6 mice (Input), which were immunized 2 days later with gp33–41 in CFA. After 8 days, draining lymph node cells were stained (Recovered) and counted, and recovery per draining (popliteal and inguinal) lymph node is shown. Numbers in the dot plots represent the percentages of CD8+Vα2+ cells in the corresponding quadrants. Data are shown as mean ± SEM (n = 3). (C) The recovered cells (shown in B) were labeled with CFSE and cultured with the indicated concentrations of gp33–41. CFSE dilution after 48 hours in culture is shown in the lower panels. The CFSE peak of undivided cells in the 100 pg/ml gp33–41 sample is indicated by an arrow.