A disease-associated PTPN22 variant promotes systemic autoimmunity in murine models
Xuezhi Dai, … , Jane H. Buckner, David J. Rawlings
Xuezhi Dai, … , Jane H. Buckner, David J. Rawlings
Published April 24, 2013
Citation Information: J Clin Invest. 2013;123(5):2024-2036. https://doi.org/10.1172/JCI66963.
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Research Article

A disease-associated PTPN22 variant promotes systemic autoimmunity in murine models

Abstract

Multiple autoimmune diseases, including type 1 diabetes, rheumatoid arthritis, Graves disease, and systemic lupus erythematosus, are associated with an allelic variant of protein tyrosine phosphatase nonreceptor 22 (PTPN22), which encodes the protein LYP. To model the human disease-linked variant LYP-R620W, we generated knockin mice expressing the analogous mutation, R619W, in the murine ortholog PEST domain phosphatase (PEP). In contrast with a previous report, we found that this variant exhibits normal protein stability, but significantly alters lymphocyte function. Aged knockin mice exhibited effector T cell expansion and transitional, germinal center, and age-related B cell expansion as well as the development of autoantibodies and systemic autoimmunity. Further, PEP-R619W affected B cell selection and B lineage–restricted variant expression and was sufficient to promote autoimmunity. Consistent with these features, PEP-R619W lymphocytes were hyperresponsive to antigen-receptor engagement with a distinct profile of tyrosine-phosphorylated substrates. Thus, PEP-R619W uniquely modulates T and B cell homeostasis, leading to a loss in tolerance and autoimmunity.

Authors

Xuezhi Dai, Richard G. James, Tania Habib, Swati Singh, Shaun Jackson, Socheath Khim, Randall T. Moon, Denny Liggitt, Alejandro Wolf-Yadlin, Jane H. Buckner, David J. Rawlings

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Figure 5

Altered B cell homeostasis in aged PEP-R619W knockin mice.

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Altered B cell homeostasis in aged PEP-R619W knockin mice. (A–E) Represe...
(AE) Representative FACS analysis of B cell populations in various tissues derived from 6-month-old T/C, T/T, and WT littermates. Numbers indicate relative percentages of each developmental population within the B220+ gate. (A) Decreased mature recirculating B cells in BM in knockin mice. BM cells were analyzed for B220, IgM, and IgD expression. (B) Increased T1 B cells in knockin mice. Splenocytes were stained for B220, CD21, and CD24 expression. Subsets were defined as CD21loCD24hi (T1), CD21intCD24hi (transitional 2, T2), CD21hiCD24hi (MZ and MZ progenitor; MZ + MZp), and CD21intCD24int (FM) B cells. (C) Increased GC B cells in knockin mice. Splenocytes were analyzed for B220, PNA, CD38, and FAS expression. (D) Increased ABC in knockin mice. Splenocytes were analyzed for B220, CD11b, and CD11c expression. (E) Increased IgDIgM isotype switched B cells in knockin mice. Splenocytes were analyzed for B220, IgD, and IgM expression. (FI) Absolute numbers of each BM B cell subset (F), splenic B cell subset (G), GC B cells (H), and ABCs (I). Error bars depict SD based on 8 (FH) and 6 (I) mice/genotype. *P < 0.05. (J) Immunofluorescent staining of splenic sections showing representative follicles using B220 (red), CD4 (green), and GL7 (blue) antibodies. Scale bars: 300 μm. Data shown are representative of 8 (AC), 6 (D and E), and 2 (J) independent experiments.