Frontiers in Immunology (Oct 2023)

Hedgehog costimulation during ischemia-reperfusion injury potentiates cytokine and homing responses of CD4+ T cells

  • Shaoxun Wang,
  • Shaoxun Wang,
  • Shaoxun Wang,
  • Guiyu Song,
  • Guiyu Song,
  • Guiyu Song,
  • Mahsa Nouri Barkestani,
  • Mahsa Nouri Barkestani,
  • Zuzana Tobiasova,
  • Qianxun Wang,
  • Qianxun Wang,
  • Quan Jiang,
  • Quan Jiang,
  • Roberto Lopez,
  • Yasmin Adelekan-Kamara,
  • Matthew Fan,
  • Jordan S. Pober,
  • George Tellides,
  • Dan Jane-wit,
  • Dan Jane-wit

DOI
https://doi.org/10.3389/fimmu.2023.1248027
Journal volume & issue
Vol. 14

Abstract

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IntroductionIschemia reperfusion injury (IRI) confers worsened outcomes and is an increasing clinical problem in solid organ transplantation. Previously, we identified a “PtchHi” T-cell subset that selectively received costimulatory signals from endothelial cell-derived Hedgehog (Hh) morphogens to mediate IRI-induced vascular inflammation.MethodsHere, we used multi-omics approaches and developed a humanized mouse model to resolve functional and migratory heterogeneity within the PtchHi population. ResultsHh-mediated costimulation induced oligoclonal and polyclonal expansion of clones within the PtchHi population, and we visualized three distinct subsets within inflamed, IRI-treated human skin xenografts exhibiting polyfunctional cytokine responses. One of these PtchHi subsets displayed features resembling recently described T peripheral helper cells, including elaboration of IFN-y and IL-21, expression of ICOS and PD-1, and upregulation of positioning molecules conferring recruitment and retention within peripheral but not lymphoid tissues. PtchHi T cells selectively homed to IRI-treated human skin xenografts to cause accelerated allograft loss, and Hh signaling was sufficient for this process to occur. DiscussionOur studies define functional heterogeneity among a PtchHi T-cell population implicated in IRI.

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