<p>Memory-like or precursor exhausted (Tpex) CD8<sup>+</sup> T cells are a critical reservoir in chronic infections and cancer, yet the signals sustaining their cytokine production remain unclear. Here, we identify KLRF1 as part of a CD4–CD8 communication axis that supports cytokine production in late-differentiated human CD8<sup>+</sup> T cells. KLRF1 is upregulated in late-differentiated CD8<sup>+</sup> T cells, and neutralizing KLRF1 reduces TNF and IFN-γ production. Differentiated CD4<sup>+</sup> T cells express the KLRF1 ligand AICL, and in co-culture only AICL<sup>+</sup> - not AICL⁻ - CD4<sup>+</sup> T cells enhance cytokine output in CD8<sup>+</sup> T cells. Using spatial proteomics of lung adenocarcinoma and adjacent tissue, we found that CD4<sup>+</sup> AICL<sup>+</sup> and CD8<sup>+</sup> KLRF1<sup>+</sup> T cells are enriched and spatially interacting in non-tumor regions, whereas both populations are reduced within tumor tissue. Single-cell RNA-seq of tissue samples and scRNA/ATAC analyses of circulating immune cells further showed that CD8<sup>+</sup>KLRF1<sup>+</sup> T cells display a Tpex-like transcriptional and chromatin-accessibility profile. Together, these data identify the AICL–KLRF1 axis as a CD4<sup>+</sup>–CD8<sup>+</sup> communication pathway that supports cytokine competence in late-differentiated CD8<sup>+</sup> T cells.</p>

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The AICL-KLRF1 axis supports CD4-CD8 T cell communication and cytokine competence in pre-exhausted CD8+ T cells

  • Matthias Barone,
  • Stefan Peidli,
  • Anika Neuschulz,
  • Karla Riesterer,
  • Christina Iwert,
  • Laia Junquera,
  • Somesh Sai,
  • Olufemi Bolaji,
  • Diana Bakoueva,
  • Christine Appelt,
  • Benedikt Obermayer,
  • Bertram Klinger,
  • Alexandra Trinks,
  • Anja Sieber,
  • Nils Blüthgen,
  • Birgit Sawitzki

摘要

Memory-like or precursor exhausted (Tpex) CD8+ T cells are a critical reservoir in chronic infections and cancer, yet the signals sustaining their cytokine production remain unclear. Here, we identify KLRF1 as part of a CD4–CD8 communication axis that supports cytokine production in late-differentiated human CD8+ T cells. KLRF1 is upregulated in late-differentiated CD8+ T cells, and neutralizing KLRF1 reduces TNF and IFN-γ production. Differentiated CD4+ T cells express the KLRF1 ligand AICL, and in co-culture only AICL+ - not AICL⁻ - CD4+ T cells enhance cytokine output in CD8+ T cells. Using spatial proteomics of lung adenocarcinoma and adjacent tissue, we found that CD4+ AICL+ and CD8+ KLRF1+ T cells are enriched and spatially interacting in non-tumor regions, whereas both populations are reduced within tumor tissue. Single-cell RNA-seq of tissue samples and scRNA/ATAC analyses of circulating immune cells further showed that CD8+KLRF1+ T cells display a Tpex-like transcriptional and chromatin-accessibility profile. Together, these data identify the AICL–KLRF1 axis as a CD4+–CD8+ communication pathway that supports cytokine competence in late-differentiated CD8+ T cells.