Cell Reports (Dec 2023)

Microglial Rac1 is essential for experience-dependent brain plasticity and cognitive performance

  • Renato Socodato,
  • Tiago O. Almeida,
  • Camila C. Portugal,
  • Evelyn C.S. Santos,
  • Joana Tedim-Moreira,
  • João Galvão-Ferreira,
  • Teresa Canedo,
  • Filipa I. Baptista,
  • Ana Magalhães,
  • António F. Ambrósio,
  • Cord Brakebusch,
  • Boris Rubinstein,
  • Irina S. Moreira,
  • Teresa Summavielle,
  • Inês Mendes Pinto,
  • João B. Relvas

Journal volume & issue
Vol. 42, no. 12
p. 113447

Abstract

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Summary: Microglia, the largest population of brain immune cells, continuously interact with synapses to maintain brain homeostasis. In this study, we use conditional cell-specific gene targeting in mice with multi-omics approaches and demonstrate that the RhoGTPase Rac1 is an essential requirement for microglia to sense and interpret the brain microenvironment. This is crucial for microglia-synapse crosstalk that drives experience-dependent plasticity, a fundamental brain property impaired in several neuropsychiatric disorders. Phosphoproteomics profiling detects a large modulation of RhoGTPase signaling, predominantly of Rac1, in microglia of mice exposed to an environmental enrichment protocol known to induce experience-dependent brain plasticity and cognitive performance. Ablation of microglial Rac1 affects pathways involved in microglia-synapse communication, disrupts experience-dependent synaptic remodeling, and blocks the gains in learning, memory, and sociability induced by environmental enrichment. Our results reveal microglial Rac1 as a central regulator of pathways involved in the microglia-synapse crosstalk required for experience-dependent synaptic plasticity and cognitive performance.

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