Wnt activation promotes memory T cell polyfunctionality via epigenetic regulator PRMT1
Bo-Yi Sung, … , Jonathan Schneck, Yen-Ling Chiu
Bo-Yi Sung, … , Jonathan Schneck, Yen-Ling Chiu
Published January 18, 2022
Citation Information: J Clin Invest. 2022;132(2):e140508. https://doi.org/10.1172/JCI140508.
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Research Article Immunology

Wnt activation promotes memory T cell polyfunctionality via epigenetic regulator PRMT1

Abstract

T cell polyfunctionality is a hallmark of protective immunity against pathogens and cancer, yet the molecular mechanism governing it remains mostly elusive. We found that canonical Wnt agonists inhibited human memory CD8+ T cell differentiation while simultaneously promoting the generation of highly polyfunctional cells. Downstream effects of Wnt activation persisted after removal of the drug, and T cells remained polyfunctional following subsequent cell division, indicating the effect is epigenetically regulated. Wnt activation induced a gene expression pattern that is enriched with stem cell–specific gene signatures and upregulation of protein arginine methyltransferase 1 (PRMT1), a known epigenetic regulator. PRMT1+CD8+ T cells are associated with enhanced polyfunctionality, especially the ability to produce IL-2. In contrast, inhibition of PRMT1 ameliorated the effects of Wnt on polyfunctionality. Chromatin immunoprecipitation revealed that H4R3me2a, a permissive transcription marker mediated by PRMT1, increased at the IL-2 promoter loci following Wnt activation. In vivo, Wnt-treated T cells exhibited superior polyfunctionality and persistence. When applied to cytomegalovirus (CMV) donor–seropositive, recipient-seronegative patients (D+/R–) lung transplant patient samples, Wnt activation enhanced CMV-specific T cell polyfunctionality, which is important in controlling CMV diseases. These findings reveal a molecular mechanism governing T cell polyfunctionality and identify PRMT1 as a potential target for T cell immunotherapy.

Authors

Bo-Yi Sung, Yi-Hsin Lin, Qiongman Kong, Pali D. Shah, Joan Glick Bieler, Scott Palmer, Kent J. Weinhold, Hong-Ru Chang, Hailiang Huang, Robin K. Avery, Jonathan Schneck, Yen-Ling Chiu

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Figure 6

PRMT1 epigenetically controls CD8+ T cell polyfunctionality.

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PRMT1 epigenetically controls CD8+ T cell polyfunctionality. (A) Memory ...
(A) Memory CD8+ T cells were stimulated with CD3/CD28 in the presence or absence of SKL2001 for 1 day and transduced with either nontarget (NT) sequence virus or PRMT1 knockdown virus. On day 7, PRMT1 RNA expression was analyzed (n = 3). Mann-Whitney U test. (B) PRMT1 protein detection by flow cytometry in PRMT1 knockdown or nontarget virus in presence or absence of SKL2001. (C) Polyfunctionality profile of cells transduced with nontarget or PRMT1 knockdown virus in DMSO or SKL2001 treatment. 0, 1, 2, 3 are defined as the number of positive cytokines. (D and E) H4R3 dimethylation by PRMT1 was enhanced by Wnt agonists (n = 4). Dunn’s test for multiple comparisons. (F) ChIP assay of memory CD8+ cells stimulated with DMSO or SKL2001 for 7 days. ChIP assays were performed with antibodies to H3Ac and H4R3me2a. Each ChIP eluate was amplified by qPCR at the indicated regions of the IL-2 locus (n = 3). Mann-Whitney U test. ***P < 0.001. #P < 0.05 by Dunn’s test.