The Journal of Clinical Investigation (Nov 2023)

Heterogeneity in allospecific T cell function in transplant-tolerant hosts determines susceptibility to rejection following infection

  • Christine M. McIntosh,
  • Jennifer B. Allocco,
  • Peter Wang,
  • Michelle L. McKeague,
  • Alexandra Cassano,
  • Ying Wang,
  • Stephen Z. Xie,
  • Grace Hynes,
  • Ricardo Mora-Cartín,
  • Domenic Abbondanza,
  • Luqiu Chen,
  • Husain Sattar,
  • Dengping Yin,
  • Zheng J. Zhang,
  • Anita S. Chong,
  • Maria-Luisa Alegre

Journal volume & issue
Vol. 133, no. 21

Abstract

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Even when successfully induced, immunological tolerance to solid organs remains vulnerable to inflammatory insults, which can trigger rejection. In a mouse model of cardiac allograft tolerance in which infection with Listeria monocytogenes (Lm) precipitates rejection of previously accepted grafts, we showed that recipient CD4+ TCR75 cells reactive to a donor MHC class I–derived peptide become hypofunctional if the allograft is accepted for more than 3 weeks. Paradoxically, infection-induced transplant rejection was not associated with transcriptional or functional reinvigoration of TCR75 cells. We hypothesized that there is heterogeneity in the level of dysfunction of different allospecific T cells, depending on duration of their cognate antigen expression. Unlike CD4+ TCR75 cells, CD4+ TEa cells specific for a peptide derived from donor MHC class II, an alloantigen whose expression declines after transplantation but remains inducible in settings of inflammation, retained function in tolerant mice and expanded during Lm-induced rejection. Repeated injections of alloantigens drove hypofunction in TEa cells and rendered grafts resistant to Lm-dependent rejection. Our results uncover a functional heterogeneity in allospecific T cells of distinct specificities after tolerance induction and reveal a strategy to defunctionalize a greater repertoire of allospecific T cells, thereby mitigating a critical vulnerability of tolerance.

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