Sanxiong Liu scite author profile

Epigenetic mechanisms regulate the formation, consolidation and reconsolidation of memories. However, the signaling path from neuronal activation to epigenetic modifications within the memory-related brain circuit remains unknown. We report that learning induces long-lasting histone modifications in hippocampal memory-activated neurons to regulate memory stability. Neuronal activity triggers a late-onset shift in Nrxn1 splice isoform choice at splicing site 4 by accumulating a repressive histone marker, H3K9me3, to modulate the splicing process. Activity-dependent phosphorylation of p66α via AMP-activated protein kinase recruits HDAC2 and Suv39h1 to establish repressive histone markers and changes the connectivity of the activated neurons. Removal of Suv39h1 abolished the activity-dependent shift in Nrxn1 splice isoform choice and reduced the stability of established memories. We uncover a cell-autonomous process for memory preservation in which memory-related neurons initiate a late-onset reduction of their rewiring capacities through activity-induced histone modifications.

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NRF1 association with AUTS2-Polycomb mediates specific gene activation in the brain

Liu

Aldinger²,

Cheng³

et al. 2021

Molecular Cell

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Preparation of cross-linked lipase-coated micro-crystals for biodiesel production from waste cooking oil

Yan

Liu

et al. 2011

Bioresource Technology

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Sanxiong Liu

Activity-induced histone modifications govern Neurexin-1 mRNA splicing and memory preservation

NRF1 association with AUTS2-Polycomb mediates specific gene activation in the brain

Preparation of cross-linked lipase-coated micro-crystals for biodiesel production from waste cooking oil

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