Nature Communications (May 2023)

Natural killer cells and innate lymphoid cells 1 tune anxiety-like behavior and memory in mice via interferon-γ and acetylcholine

  • Stefano Garofalo,
  • Germana Cocozza,
  • Alessandro Mormino,
  • Giovanni Bernardini,
  • Eleonora Russo,
  • Donald Ielpo,
  • Diego Andolina,
  • Rossella Ventura,
  • Katiuscia Martinello,
  • Massimiliano Renzi,
  • Sergio Fucile,
  • Mattia Laffranchi,
  • Eva Piano Mortari,
  • Rita Carsetti,
  • Giuseppe Sciumè,
  • Silvano Sozzani,
  • Angela Santoni,
  • Marie-Eve Tremblay,
  • Richard M. Ransohoff,
  • Cristina Limatola

DOI
https://doi.org/10.1038/s41467-023-38899-3
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 15

Abstract

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Abstract The mechanisms of communication between the brain and the immune cells are still largely unclear. Here, we characterize the populations of resident natural killer (NK) cells and innate lymphoid cells (ILC) 1 in the meningeal dura layer of adult mice. We describe that ILC1/NK cell-derived interferon-γ and acetylcholine can contribute to the modulation of brain homeostatic functions, shaping synaptic neuronal transmission and neurotransmitter levels with effects on mice behavior. In detail, the interferon-γ plays a role in the formation of non-spatial memory, tuning the frequency of GABAergic neurotransmission on cortical pyramidal neurons, while the acetylcholine is a mediator involved in the modulation of brain circuitries that regulate anxiety-like behavior. These findings disclose mechanisms of immune-to-brain communication that modulate brain functions under physiological conditions.