PLoS Pathogens (Aug 2016)

Compartmentalization of Total and Virus-Specific Tissue-Resident Memory CD8+ T Cells in Human Lymphoid Organs.

  • Heng Giap Woon,
  • Asolina Braun,
  • Jane Li,
  • Corey Smith,
  • Jarem Edwards,
  • Frederic Sierro,
  • Carl G Feng,
  • Rajiv Khanna,
  • Michael Elliot,
  • Andrew Bell,
  • Andrew D Hislop,
  • Stuart G Tangye,
  • Alan B Rickinson,
  • Thomas Gebhardt,
  • Warwick J Britton,
  • Umaimainthan Palendira

DOI
https://doi.org/10.1371/journal.ppat.1005799
Journal volume & issue
Vol. 12, no. 8
p. e1005799

Abstract

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Disruption of T cell memory during severe immune suppression results in reactivation of chronic viral infections, such as Epstein Barr virus (EBV) and Cytomegalovirus (CMV). How different subsets of memory T cells contribute to the protective immunity against these viruses remains poorly defined. In this study we examined the compartmentalization of virus-specific, tissue resident memory CD8+ T cells in human lymphoid organs. This revealed two distinct populations of memory CD8+ T cells, that were CD69+CD103+ and CD69+CD103-, and were retained within the spleen and tonsils in the absence of recent T cell stimulation. These two types of memory cells were distinct not only in their phenotype and transcriptional profile, but also in their anatomical localization within tonsils and spleen. The EBV-specific, but not CMV-specific, CD8+ memory T cells preferentially accumulated in the tonsils and acquired a phenotype that ensured their retention at the epithelial sites where EBV replicates. In vitro studies revealed that the cytokine IL-15 can potentiate the retention of circulating effector memory CD8+ T cells by down-regulating the expression of sphingosine-1-phosphate receptor, required for T cell exit from tissues, and its transcriptional activator, Kruppel-like factor 2 (KLF2). Within the tonsils the expression of IL-15 was detected in regions where CD8+ T cells localized, further supporting a role for this cytokine in T cell retention. Together this study provides evidence for the compartmentalization of distinct types of resident memory T cells that could contribute to the long-term protection against persisting viral infections.