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UTX coordinates TCF1 and STAT3 to control progenitor CD8+ T cell fate in autoimmune diabetes
Ho-Chung Chen, Madison F. Bang, Hsing-Hui Wang, Karl B. Shpargel, Lisa A. Kohn, David Sailer, Shile Zhang, Ethan C. McCarthy, Maryamsadat Seyedsadr, Satchel Stevens, Caitlyn L.H. Pham, Zikang Zhou, Xihui Yin, Nicole M. Wilkinson, Esther M. Peluso, Christian Bustillos, Jessica G. Ortega, Lixin Yang, Ashlyn A. Buzzelli, Reina C. Capati, Dennis J. Chia, Steven D. Mittelman, Christina M. Reh, Jason K. Whitmire, Melissa G. Lechner, Willy Hugo, Maureen A. Su
Ho-Chung Chen, Madison F. Bang, Hsing-Hui Wang, Karl B. Shpargel, Lisa A. Kohn, David Sailer, Shile Zhang, Ethan C. McCarthy, Maryamsadat Seyedsadr, Satchel Stevens, Caitlyn L.H. Pham, Zikang Zhou, Xihui Yin, Nicole M. Wilkinson, Esther M. Peluso, Christian Bustillos, Jessica G. Ortega, Lixin Yang, Ashlyn A. Buzzelli, Reina C. Capati, Dennis J. Chia, Steven D. Mittelman, Christina M. Reh, Jason K. Whitmire, Melissa G. Lechner, Willy Hugo, Maureen A. Su
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Research Article Autoimmunity Immunology

UTX coordinates TCF1 and STAT3 to control progenitor CD8+ T cell fate in autoimmune diabetes

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Abstract

Type 1 diabetes mellitus (T1D) is a chronic disease caused by an unremitting autoimmune attack on pancreatic β cells. This autoimmune chronicity is mediated by stem-like progenitor CD8+ T cells that continually repopulate the pool of β cell–specific cytolytic effectors. Factors governing the conversion of progenitors to effectors, however, remain unclear. T1D has been linked to a chromosomal region (Xp13-p11) that contains the epigenetic regulator UTX, which suggests a key role for UTX in T1D pathogenesis. Here, we show that T cell–specific UTX deletion in NOD mice protects against T1D development. In T cells of NOD mice and patients with T1D, UTX ablation resulted in the accumulation of CD8+ progenitor cells with a concomitant decrease of effector cells, suggesting a key role for UTX in poising progenitors for transition to effectors. Mechanistically, UTX’s role in T1D was independent of its inherent histone demethylase activity but instead relied on binding with transcription factors (TCF1 and STAT3) to coregulate genes important in the maintenance and differentiation of progenitor CD8+ T cells. Together, these findings identify a critical role for UTX in T1D and the UTX:TCF1:STAT3 complex as a therapeutic target for terminating the long-lived autoimmune response.

Authors

Ho-Chung Chen, Madison F. Bang, Hsing-Hui Wang, Karl B. Shpargel, Lisa A. Kohn, David Sailer, Shile Zhang, Ethan C. McCarthy, Maryamsadat Seyedsadr, Satchel Stevens, Caitlyn L.H. Pham, Zikang Zhou, Xihui Yin, Nicole M. Wilkinson, Esther M. Peluso, Christian Bustillos, Jessica G. Ortega, Lixin Yang, Ashlyn A. Buzzelli, Reina C. Capati, Dennis J. Chia, Steven D. Mittelman, Christina M. Reh, Jason K. Whitmire, Melissa G. Lechner, Willy Hugo, Maureen A. Su

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Figure 5

Integrative analysis of chromatin binding, accessibility, and transcription reveals that STAT3 and TCF1 cobind UTX-target genes.

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Integrative analysis of chromatin binding, accessibility, and transcript...
(A) PCA analysis of UTX CUT&Tag from sorted Tprog (CD8+ Ly108+ CD39–) cells from pLNs of NOD-TCR 8.3 WT and NOD-TCR 8.3 UTXTCD mice. (B) Location of UTX-bound peaks. (C) Venn diagram outlining overlapping differentially accessible (DA) genes identified by ATAC-seq and differentially expressed (DE) genes identified by RNA-seq. (D) Representative gene tracks from the UCSC Integrated Genome Browser of anti-UTX CUT&Tag, ATAC-seq, and RNA-seq of effector genes, Gzmb and Cxcr6, and progenitor genes, Bach2 and Bcl2. The y axis depicts counts per million (CPM). (E) Transcriptional factors were bound to the overlapping genes identified by UTX datasets. Overlapping genes were input into Enrichr for ChEA3 analysis. (F) Venn diagram outlining overlapping genes bound by UTX, TCF1, and STAT3 (TCF1 ChIP-seq: GSE73240, STAT3 ChIP-seq: GSE217374). (G) Gene tracks from the UCSC genome browser to demonstrate the aligned region bound by UTX, TCF1, and STAT3. The y axis depicts CPM.

Copyright © 2026 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)

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