Reduced expression of phosphatase PTPN2 promotes pathogenic conversion of Tregs in autoimmunity
Mattias N.D. Svensson, … , Pandurangan Vijayanand, Nunzio Bottini
Mattias N.D. Svensson, … , Pandurangan Vijayanand, Nunzio Bottini
Published March 1, 2019; First published January 8, 2019
Citation Information: J Clin Invest. 2019;129(3):1193-1210. https://doi.org/10.1172/JCI123267.
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Categories: Research Article Autoimmunity Immunology

Reduced expression of phosphatase PTPN2 promotes pathogenic conversion of Tregs in autoimmunity

Abstract

Genetic variants at the PTPN2 locus, which encodes the tyrosine phosphatase PTPN2, cause reduced gene expression and are linked to rheumatoid arthritis (RA) and other autoimmune diseases. PTPN2 inhibits signaling through the T cell and cytokine receptors, and loss of PTPN2 promotes T cell expansion and CD4- and CD8-driven autoimmunity. However, it remains unknown whether loss of PTPN2 in FoxP3+ regulatory T cells (Tregs) plays a role in autoimmunity. Here we aimed to model human autoimmune-predisposing PTPN2 variants, the presence of which results in a partial loss of PTPN2 expression, in mouse models of RA. We identified that reduced expression of Ptpn2 enhanced the severity of autoimmune arthritis in the T cell–dependent SKG mouse model and demonstrated that this phenotype was mediated through a Treg-intrinsic mechanism. Mechanistically, we found that through dephosphorylation of STAT3, PTPN2 inhibits IL-6–driven pathogenic loss of FoxP3 after Tregs have acquired RORγt expression, at a stage when chromatin accessibility for STAT3-targeted IL-17–associated transcription factors is maximized. We conclude that PTPN2 promotes FoxP3 stability in mouse RORγt+ Tregs and that loss of function of PTPN2 in Tregs contributes to the association between PTPN2 and autoimmunity.

Authors

Mattias N.D. Svensson, Karen M. Doody, Benjamin J. Schmiedel, Sourya Bhattacharyya, Bharat Panwar, Florian Wiede, Shen Yang, Eugenio Santelli, Dennis J. Wu, Cristiano Sacchetti, Ravindra Gujar, Gregory Seumois, William B. Kiosses, Isabelle Aubry, Gisen Kim, Piotr Mydel, Shimon Sakaguchi, Mitchell Kronenberg, Tony Tiganis, Michel L. Tremblay, Ferhat Ay, Pandurangan Vijayanand, Nunzio Bottini

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Figure 11

Ptpn2 haploinsufficiency promotes conversion of RORγt+ effector Tregs.

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Ptpn2 haploinsufficiency promotes conversion of RORγt+ effector Tregs. ...
(A) Kinetics of IL-17A+ exTreg generation during in vitro stimulation of sorted Ptpn2+/+ FoxP3eGFP SKG Tregs (n = 3) with IL-6 (50 ng/ml) and anti-CD3/CD28–coated beads. (B and C) In vitro conversion of Ptpn2+/+ (n = 6) and Ptpn2+/– (n = 5) effector and resting SKG Tregs into IL-17+ exTregs. (D) Generation of FoxP3RORγt+ exTregs (gated as in A) from Ptpn2+/+ and Ptpn2+/– effector and resting SKG Tregs. (E and F) Inhibition of JAK1/2 signaling using ruxolitinib during in vitro conversion of resting SKG Tregs. (E) Gating strategy for evaluation of RORγt+ expressing Ptpn2+/+ (n = 7) and Ptpn2+/– (n = 6) cells after 72 hours of culture. (F) Effect of JAK1/2 inhibition on upregulation of RORγt+ on live cells (top left, dot plot), generation of IL-17+FoxP3 exTregs (top right, dot plot and histograms), and loss of FoxP3 within the RORγt+ population (bottom dot plot and histograms). Compiled data from 2 experiments are presented (CF). Each symbol represents an individual mouse. Bars represent mean ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001 by unpaired t test (C and D) or 2-way ANOVA (F).