Compromised DNA Repair Promotes the Accumulation of Regulatory T Cells With an Aging-Related Phenotype and Responsiveness

Daan K J Pieren, Noortje A M Smits, Sandra Imholz, Bhawani Nagarajah, Conny T van Oostrom, Renata M C Brandt, Wilbert P Vermeij, Martijn E T Dollé, Teun Guichelaar*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Decline of immune function during aging has in part been ascribed to the accumulation of regulatory T cells (Tregs) and decreased T-cell responses with age. Aside from changes to T cells that occur over a lifetime, the impact of intracellular aging processes such as compromised DNA repair on T cells remains incompletely defined. Here we aimed to define the impact of compromised DNA repair on T-cell phenotype and responsiveness by studying T cells from mice with a deficiency in their DNA excision-repair gene Ercc1. These Ercc1 mutant (Ercc1 -/Δ7 ) mice show accumulation of nuclear DNA damage resulting in accelerated aging. Similarly to wild-type aged mice, Ercc1 -/Δ7 mice accumulated Tregs with reduced CD25 and increased PD-1 expression among their naive T cells. Ercc1-deficiency limited the capacity of Tregs, helper T cells, and cytotoxic T cells to proliferate and upregulate CD25 in response to T-cell receptor- and IL-2-mediated stimulation. The recent demonstration that the mammalian target of rapamycin (mTOR) may impair DNA repair lead us to hypothesize that changes induced in the T-cell population by compromised DNA repair may be slowed down or reversed by blocking mTOR with rapamycin. In vivo dietary treatment of Ercc1 -/Δ7 mice with rapamycin did not reduce Treg levels, but highly increased the proportion of CD25+ and PD-1+ memory Tregs instead. Our study elucidates that compromised DNA repair promotes the accumulation of Tregs with an aging-related phenotype and causes reduced T-cell responsiveness, which may be independent of mTOR activation.

Original languageEnglish
Article number667193
JournalFrontiers in aging
Volume2
DOIs
Publication statusPublished - May 2021
Externally publishedYes

Keywords

  • DNA damage
  • T cells
  • aging
  • ercc1
  • mTOR
  • nucleotide excision repair
  • rapamycin
  • regulatory T cells

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