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.
View: Text | PDF
Research Article Immunology

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

×

Figure 5

Reduced tonic TCR signaling in naive GRlck-Cre T cells.

Options: View larger image (or click on image) Download as PowerPoint
Reduced tonic TCR signaling in naive GRlck-Cre T cells. (A) Left panel...
(A) Left panel: Steady-state phosphorylation of TCRζ in GRlck-Cre (KO) and GRfl/+;lck-Cre (Het) normal T cells is reduced. Immunoblot analysis of TCRζ phosphorylation and total Erk2 in purified peripheral CD4+ and CD8+ T cells. The level of TCRζ phosphorylation, normalized to Erk2, is shown below as a percentage of WT. For CD4+ T cells, noncontiguous lanes from a single gel were rearranged. Right panel: TCRζ phosphorylation, expressed as a percentage of WT, averaged from 2 (GRfl/+;lck-Cre) and 3 (GRlck-Cre) independent experiments. (B) Steady-state phosphorylation of TCRζ in GRlck-Cre and WT AND TCR CD4+ T cells. (C) Reduced long-term survival of adoptively transferred GRlck-Cre T cells. WT (CD45.1+) and GRlck-Cre (CD45.1+CD45.2+) lymph node cells were mixed together and transferred i.v. into C57BL/6 (CD45.2+) recipients. One representative experiment of 3 is shown, with CD45.1 versus CD45.2 staining of Thy1.2+ cells that were transferred (Input) and the cells recovered from the spleen 5 weeks later (center panels). Nonspecific staining in a CD45.2+ mouse (control) was used to calculate cell recovery. Numbers in the dot plots represent the percentages of Thy1.2+ cells. The average of 3 independent experiments in which cells were recovered and analyzed from 4–7 weeks after transfer is shown in the right panel.