Epstein-Barr virus infection induces tissue-resident memory T cells in mucosal lymphoid tissues
Daniel Kirchmeier, … , Kyra Zens, Christian Münz
Daniel Kirchmeier, … , Kyra Zens, Christian Münz
Published September 12, 2024
Citation Information: JCI Insight. 2024;9(20):e173489. https://doi.org/10.1172/jci.insight.173489.
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Research Article Immunology Infectious disease

Epstein-Barr virus infection induces tissue-resident memory T cells in mucosal lymphoid tissues

Abstract

EBV contributes to around 2% of all tumors worldwide. Simultaneously, more than 90% of healthy human adults persistently carry EBV without clinical symptoms. In most EBV carriers, it is thought that virus-induced tumorigenesis is prevented by cell-mediated immunity. Specifically, memory CD8+ T cells recognize EBV-infected cells during latent and lytic infection. Using a symptomatic primary infection model, similar to infectious mononucleosis (IM), we found EBV-induced CD8+ tissue resident memory T cells (TRMs) in mice with a humanized immune system. These human TRMs were preferentially established after intranasal EBV infection in nasal-associated lymphoid tissues (NALT), equivalent to tonsils, the primary site of EBV infection in humans. They expressed canonical TRM markers, including CD69, CD103, and BLIMP-1, as well as granzyme B, CD107a, and CCL5. Despite cytotoxic activity and cytokine production ex vivo, these TRMs demonstrated reduced CD27 expression and proliferation and failed to control EBV viral loads in the NALT during infection, although effector memory T cells (TEMs) controlled viral titers in spleen and blood. Overall, TRMs are established in mucosal lymphoid tissues by EBV infection, but primarily, systemic CD8+ T cell expansion seems to control viral loads in the context of IM-like infection.

Authors

Daniel Kirchmeier, Yun Deng, Lisa Rieble, Michelle Böni, Fabienne Läderach, Patrick Schuhmachers, Alma Delia Valencia-Camargo, Anita Murer, Nicole Caduff, Bithi Chatterjee, Obinna Chijioke, Kyra Zens, Christian Münz

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Figure 4

Ontology of NALT TRM following i.n. EBV infection.

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Ontology of NALT TRM following i.n. EBV infection. (A) Integrated UMAP p...
(A) Integrated UMAP plot depicting unsupervised clustering of single CD8+ TEM transcriptomes sorted from blood, LN, NALT, and spleen. (B) Cellular trajectories in pseudo time (blue to yellow, earlier to later pseudo time point) of single CD8+ TEM transcriptomes sorted from blood, LN, NALT, and spleen. (C) Representative flow cytometry plots of example TCR-Vβ17 and TCR-Vβ2 staining in 2 EBV-infected animals. (D) Frequencies of indicated TCR-VB clones among splenic CD8+ TEMs following intranasal EBV infection. (E) Frequencies of the top 6 TCR-VB clones in NALT CD8+ TEMs in the same animals. (F) Representative flow cytometry plots of example TCR-Vβ17 and TCR-Vβ2 staining in 2 PBS control animals (left) frequencies of the top 6 TCR-VB clones in spleen CD8+ TEMs of PBS control animals (center) and frequencies of the top 6 TCR-VB clones in NALT CD8+ TEMs of PBS control animals (right).