Transcriptomics

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Formation of Memory Assemblies through the DNA Sensing Tlr9 Pathway


ABSTRACT: As hippocampal neurons respond to diverse types of information a subset assembles into stable microcircuits representing a memory. Those neurons typically undergo energy-intensive molecular adaptations, which occasionally results in transient DNA damage. We found, however, discrete clusters of excitatory hippocampal CA1 neurons showing persistent dsDNA breaks, nuclear envelope ruptures, and perinuclear release of histone and dsDNA fragments for hours after learning. Following these early events, some neurons acquired an inflammatory phenotype involving activation of Toll-like receptor 9 (Tlr9) signaling and accumulation of centrosomal DNA damage repair (DDR) complexes. Neuron-specific knockdown of Tlr9 impaired memory while blunting CFC-induced changes of gene expression in specific clusters of excitatory CA1 neurons. Most notably, Tlr9 played an essential role in centrosome function, including DDR, ciliogenesis, and build-up of perineuronal nets (PNN). We demonstrate a novel cascade of learning-induced molecular events in discrete neuronal clusters undergoing dsDNA damage and Tlr9-mediated repair, resulting in their recruitment to memory circuits. With compromised Tlr9 function, this fundamental memory mechanism becomes a gateway to genomic instability and cognitive impairments, which have been implicated in accelerated senescence, psychiatric disorders, and neurodegenerative disorders. Maintaining the integrity of Tlr9 inflammatory signaling thus emerges as a promising preventive strategy for neurocognitive deficits.

ORGANISM(S): Mus musculus

PROVIDER: GSE254780 | GEO | 2024/03/01

REPOSITORIES: GEO

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