A human STAT3 gain-of-function variant confers T cell dysregulation without predominant Treg dysfunction in mice
Erica G. Schmitt, Kelsey A. Toth, Samuel I. Risma, Ana Kolicheski, Nermina Saucier, Rafael J. Feliciano Berríos, Zev J. Greenberg, Jennifer W. Leiding, Jack J. Bleesing, Akaluck Thatayatikom, Laura G. Schuettpelz, John R. Edwards, Tiphanie P. Vogel, Megan A. Cooper
Erica G. Schmitt, Kelsey A. Toth, Samuel I. Risma, Ana Kolicheski, Nermina Saucier, Rafael J. Feliciano Berríos, Zev J. Greenberg, Jennifer W. Leiding, Jack J. Bleesing, Akaluck Thatayatikom, Laura G. Schuettpelz, John R. Edwards, Tiphanie P. Vogel, Megan A. Cooper
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Research Article Immunology

A human STAT3 gain-of-function variant confers T cell dysregulation without predominant Treg dysfunction in mice

Abstract

Primary immune regulatory disorders (PIRD) represent a group of disorders characterized by immune dysregulation, presenting with a wide range of clinical disease, including autoimmunity, autoinflammation, or lymphoproliferation. Autosomal dominant germline gain-of-function (GOF) variants in STAT3 result in a PIRD with a broad clinical spectrum. Studies in patients have documented a decreased frequency of FOXP3+ Tregs and an increased frequency of Th17 cells in some patients with active disease. However, the mechanisms of disease pathogenesis in STAT3 GOF syndrome remain largely unknown, and treatment is challenging. We developed a knock-in mouse model harboring a de novo pathogenic human STAT3 variant (p.G421R) and found these mice developed T cell dysregulation, lymphoproliferation, and CD4+ Th1 cell skewing. Surprisingly, Treg numbers, phenotype, and function remained largely intact; however, mice had a selective deficiency in the generation of iTregs. In parallel, we performed single-cell RNA-Seq on T cells from STAT3 GOF patients. We demonstrate only minor changes in the Treg transcriptional signature and an expanded, effector CD8+ T cell population. Together, these findings suggest that Tregs are not the primary driver of disease and highlight the importance of preclinical models in the study of disease mechanisms in rare PIRD.

Authors

Erica G. Schmitt, Kelsey A. Toth, Samuel I. Risma, Ana Kolicheski, Nermina Saucier, Rafael J. Feliciano Berríos, Zev J. Greenberg, Jennifer W. Leiding, Jack J. Bleesing, Akaluck Thatayatikom, Laura G. Schuettpelz, John R. Edwards, Tiphanie P. Vogel, Megan A. Cooper

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Figure 2

T cell dysregulation in STAT3 GOF mice.

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T cell dysregulation in STAT3 GOF mice. (A) Frequency of CD3+CD4+CD44+CD...
(A) Frequency of CD3+CD4+CD44+CD62L or CD3+CD8+CD44+CD62L T cells in the spleen of young mice. (B) Representative flow cytometry from the spleen of adult mice. (C) Frequency of CD3+CD4+CD44+CD62L or CD3+CD8+CD44+CD62L T cells in the spleen of adult and old mice. (D) Frequency of CD3+CD4+IFN-γ+IL-17A cells in the spleen of young mice. (E) Scatter plot showing adult and old mice spleen frequency of CD3+CD4+IFN-γ+IL-17A cells (left), and representative flow cytometry from the spleen of old mice (right). (F) Graphical representation of experimental outline for BM transplant (top). Frequency of Ly5.2+ or Ly5.1+ cells in the spleen of transplanted mice, gated on live, single cells. Data are representative of 3–4 independent experiments; n = 8 (HOM → WT) and n = 5 (WT → WT). (G) Frequency of donor Ly5.2+ cells that were CD3+CD4+CD44+CD62L or CD3+CD8+CD44+CD62L in the spleen of transplanted mice. (H) Percentage of donor Ly5.2+ cells that were CD3+CD4+IFN-γ+IL-17A (left) and representative flow cytometry from the spleen of transplanted mice (right). For all scatter plots, each dot represents an individual mouse, and data are shown as mean ± SEM. Data are representative of at least 3 independent experiments. An unpaired t test was used for all comparisons with 2 groups, and Welch’s t test was used in the instance of unequal variance; for those with 3 or more groups, 1-way ANOVA was used. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.