Litcius/Paper detail

Microglial TNFα controls daily changes in synaptic GABAARs and sleep slow waves

Maria J. Pinto, Lucy Bizien, Julie MJ Fabre, Nina Đukanović, Valentin Lepetz, Fiona Henderson, Marine Pujol, Romain W Sala, Thibault Tarpin, Daniela Popa, Antoine Triller, Clément Léna, Véronique Fabre, Alain Bessis

2024The Journal of Cell Biology15 citationsDOIOpen Access PDF

Abstract

Microglia sense the changes in their environment. How microglia actively translate these changes into suitable cues to adapt brain physiology is unknown. We reveal an activity-dependent regulation of cortical inhibitory synapses by microglia, driven by purinergic signaling acting on P2RX7 and mediated by microglia-derived TNFα. We demonstrate that sleep induces microglia-dependent synaptic enrichment of GABAARs in a manner dependent on microglial TNFα and P2RX7. We further show that microglia-specific depletion of TNFα alters slow waves during NREM sleep and blunt memory consolidation in sleep-dependent learning tasks. Together, our results reveal that microglia orchestrate sleep-intrinsic plasticity of synaptic GABAARs, sculpt sleep slow waves, and support memory consolidation.

Topics & Concepts

MicrogliaNeuroscienceMemory consolidationSynaptic plasticitySleep (system call)Purinergic receptorPsychologyBiologyInflammationReceptorHippocampusCell biologyImmunologyComputer scienceExtracellularOperating systemBiochemistryNeuroinflammation and Neurodegeneration MechanismsSleep and Wakefulness ResearchNeurogenesis and neuroplasticity mechanisms