Nature Communications (Feb 2024)

T-bet+ B cells are activated by and control endogenous retroviruses through TLR-dependent mechanisms

  • Eileen Rauch,
  • Timm Amendt,
  • Aleksandra Lopez Krol,
  • Fabian B. Lang,
  • Vincent Linse,
  • Michelle Hohmann,
  • Ann-Christin Keim,
  • Susanne Kreutzer,
  • Kevin Kawengian,
  • Malte Buchholz,
  • Philipp Duschner,
  • Saskia Grauer,
  • Barbara Schnierle,
  • Andreas Ruhl,
  • Ingo Burtscher,
  • Sonja Dehnert,
  • Chege Kuria,
  • Alexandra Kupke,
  • Stephanie Paul,
  • Thomas Liehr,
  • Marcus Lechner,
  • Markus Schnare,
  • Andreas Kaufmann,
  • Magdalena Huber,
  • Thomas H. Winkler,
  • Stefan Bauer,
  • Philipp Yu

DOI
https://doi.org/10.1038/s41467-024-45201-6
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 19

Abstract

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Abstract Endogenous retroviruses (ERVs) are an integral part of the mammalian genome. The role of immune control of ERVs in general is poorly defined as is their function as anti-cancer immune targets or drivers of autoimmune disease. Here, we generate mouse-strains where Moloney-Murine Leukemia Virus tagged with GFP (ERV-GFP) infected the mouse germline. This enables us to analyze the role of genetic, epigenetic and cell intrinsic restriction factors in ERV activation and control. We identify an autoreactive B cell response against the neo-self/ERV antigen GFP as a key mechanism of ERV control. Hallmarks of this response are spontaneous ERV-GFP+ germinal center formation, elevated serum IFN-γ levels and a dependency on Age-associated B cells (ABCs) a subclass of T-bet+ memory B cells. Impairment of IgM B cell receptor-signal in nucleic-acid sensing TLR-deficient mice contributes to defective ERV control. Although ERVs are a part of the genome they break immune tolerance, induce immune surveillance against ERV-derived self-antigens and shape the host immune response.