NR4A family members regulate T cell tolerance to preserve immune homeostasis and suppress autoimmunity
Ryosuke Hiwa, Hailyn V. Nielsen, James L. Mueller, Ravi Mandla, Julie Zikherman
Ryosuke Hiwa, Hailyn V. Nielsen, James L. Mueller, Ravi Mandla, Julie Zikherman
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Research Article Immunology

NR4A family members regulate T cell tolerance to preserve immune homeostasis and suppress autoimmunity

Abstract

The NR4A family of orphan nuclear receptors (Nr4a1–3) plays redundant roles to establish and maintain Treg identity; deletion of multiple family members in the thymus results in Treg deficiency and a severe inflammatory disease. Consequently, it has been challenging to unmask redundant functions of the NR4A family in other immune cells. Here we use a competitive bone marrow chimera strategy, coupled with conditional genetic tools, to rescue Treg homeostasis and unmask such functions. Unexpectedly, chimeras harboring Nr4a1–/– Nr4a3–/– (double-knockout, DKO) bone marrow developed autoantibodies and a systemic inflammatory disease despite a replete Treg compartment of largely WT origin. This disease differs qualitatively from that seen with Treg deficiency and is B cell extrinsic. Negative selection of DKO thymocytes is profoundly impaired in a cell-intrinsic manner. Consistent with escape of self-reactive T cells into the periphery, DKO T cells with functional, phenotypic, and transcriptional features of anergy accumulated in chimeric mice. Nevertheless, we observed upregulation of genes encoding inflammatory mediators in anergic DKO T cells, and DKO T cells exhibited enhanced capacity for IL-2 production. These studies reveal cell-intrinsic roles for the NR4A family in both central and peripheral T cell tolerance and demonstrate that each is essential to preserve immune homeostasis.

Authors

Ryosuke Hiwa, Hailyn V. Nielsen, James L. Mueller, Ravi Mandla, Julie Zikherman

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Figure 4

Abnormal B cell homeostasis in DKO mice is a non–cell-autonomous effect of NR4A deficiency.

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Abnormal B cell homeostasis in DKO mice is a non–cell-autonomous effect ...
(A) Representative flow plots showing CD69 expression on splenic B cells from WT (shaded gray histogram) and overlaid Nr4a3–/–, Nr4a1–/–, or gDKO mice. (B) Quantification of CD69 MFI as in A (data in A and B represent n ≥ 5, 3- to 4-week-old gDKO and 5- to 6-week-old mice of other genotypes). (C) Quantification of CD69 MFI on splenic B cells of each donor genotype in competitive 1:1 chimeras (n = 3 from 1 chimera setup). (D and G) Representative flow plots show FAShiGL7+ GC B cells pregated on B220+IgDlo splenocytes (D) and CD138+ splenocytes (G) from competitive chimeras. (EI) Frequency of GC B cells among total B cells (E), ratio of CD45.2 to CD45.1/2 GC B cells normalized to B220+IgDhi naive B cells (F), ratio of CD138+ to B220+ splenocytes (H), ratio of CD45.2 to CD45.1/2 CD138+ cells normalized to B220+CD138 cells (I) from competitive chimeras as gated in D and G (data in DI represent n ≥ 6 pooled from 3 sets of independently generated chimeras). (JM) Representative flow plots show GC B cells (J) and CD138+ cells (L) in spleen from host chimeras transplanted with either mb1-cre or mb1-cre Nr4a1fl/fl Nr4a3–/– (cDKO) BM after 40 weeks. Frequency of GC B cells among total B cells (K) and CD138+ cells among splenocytes (M) (n ≥ 3). Graphs depict mean ± SEM. Statistical significance was assessed by 1-way ANOVA with Tukey’s test (B) or Dunnett’s test (E, F, H, and I) or 2-tailed unpaired Student’s t test with (C) or without (K and M) the Holm-Šídák method. *P < 0.05; **P < 0.01; ****P < 0.0001. NS, not significant.