The Journal of Clinical Investigation (Jan 2022)

Wnt activation promotes memory T cell polyfunctionality via epigenetic regulator PRMT1

  • 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

Journal volume & issue
Vol. 132, no. 2

Abstract

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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.

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