PPP2R2D suppresses IL-2 production and Treg function
Wenliang Pan, Amir Sharabi, Andrew Ferretti, Yinfeng Zhang, Catalina Burbano, Nobuya Yoshida, Maria G. Tsokos, George C. Tsokos
Wenliang Pan, Amir Sharabi, Andrew Ferretti, Yinfeng Zhang, Catalina Burbano, Nobuya Yoshida, Maria G. Tsokos, George C. Tsokos
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Research Article Immunology

PPP2R2D suppresses IL-2 production and Treg function

Abstract

Protein phosphatase 2A is a ubiquitously expressed serine/threonine phosphatase that comprises a scaffold, a catalytic, and multiple regulatory subunits and has been shown to be important in the expression of autoimmunity. We considered that a distinct subunit may account for the decreased production of IL-2 in people and mice with systemic autoimmunity. We show that the regulatory subunit PPP2R2D is increased in T cells from people with systemic lupus erythematosus and regulates IL-2 production. Mice lacking PPP2R2D only in T cells produce more IL-2 because the IL-2 gene and genes coding for IL-2–enhancing transcription factors remain open, while the levels of the enhancer phosphorylated CREB are high. Mice with T cell–specific PPP2R2D deficiency display less systemic autoimmunity when exposed to a TLR7 stimulator. While genes related to Treg function do not change in the absence of PPP2R2D, Tregs exhibit high suppressive function in vitro and in vivo. Because the ubiquitous expression of protein phosphatase 2A cannot permit systemic therapeutic manipulation, the identification of regulatory subunits able to control specific T cell functions opens the way for the development of novel, function-specific drugs.

Authors

Wenliang Pan, Amir Sharabi, Andrew Ferretti, Yinfeng Zhang, Catalina Burbano, Nobuya Yoshida, Maria G. Tsokos, George C. Tsokos

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Figure 3

Chromatin accessibility profiles of Tconv cells with or without PPP2R2D expression using ATAC-seq analysis.

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Chromatin accessibility profiles of Tconv cells with or without PPP2R2D ...
CD4+ Tconv cells were sorted out from spleens of R2Dfl/fl or LckCreR2Dfl/fl mice (n = 2 mice/group) and ex vivo stimulated by plate-bound CD3 and CD28 antibodies for 4 hours before being subjected to ATAC-seq. (A) Correlation heatmap indicating cross-correlation between each replicate or each group. (B) Histogram showing the distance from the nearest transcription start site (TSS) for all ATAC-seq peaks. (C) Volcano plot showing differential chromatin accessibility in CD4+ Tconv cells isolated from R2Dfl/fl (WT) and LckCreR2Dfl/fl (KO) mice. Fold change (FC) is calculated as log2 (LckCreR2Dfl/fl/R2Dfl/fl). Red indicates sites that were significantly different (adjusted P ≤ 0.01, FC ≥ 4). (D) Transcription factor (TF) family binding motifs enriched in loci more accessible in LckCreR2Dfl/fl or R2Dfl/fl Tconv cells; the x axis shows the enrichment factor (ratio of the percentage of differential sites with motifs to the percentage of nondifferential sites with motifs), and the y axis shows the significance level of enrichment. TF families are indicated by color. (E) Accessibility tracks for selected gene loci (IL-2, Fos, Jun, Nfatc1, Nfkb1, and Rela) in R2Dfl/fl (up) and LckCreR2Dfl/fl (down) Tconv cells were plotted using the integrative genomics viewer (IGV). ATAC-seq data are average of 2 biological replicates at each cell type.