Synaptic BMAL1 phosphorylation controls circadian hippocampal plasticity

Synaptic BMAL1 phosphorylation controls circadian hippocampal plasticity

The time of day strongly influences adaptive behaviors like long-term memory, but the correlating synaptic and molecular mechanisms remain unclear. The circadian clock comprises a canonical transcription-translation feedback loop (TTFL) strictly dependent on the BMAL1 transcription factor. We report...

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Veröffentlicht in:Science advances 2023-10, Vol.9 (43), p.eadj1010-eadj1010
Hauptverfasser: Barone, Ilaria, Gilette, Nicole M, Hawks-Mayer, Hannah, Handy, Jonathan, Zhang, Kevin J, Chifamba, Fortunate F, Mostafa, Engie, Johnson-Venkatesh, Erin M, Sun, Yan, Gibson, Jennifer M, Rotenberg, Alexander, Umemori, Hisashi, Tsai, Peter T, Lipton, Jonathan O
Format: Artikel
Sprache:eng
Schlagworte:
ARNTL Transcription Factors - genetics
Circadian Clocks
Circadian Rhythm - physiology
Hippocampus - metabolism
Molecular Biology
Neuroscience
Phosphorylation
SciAdv r-articles
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Zusammenfassung:The time of day strongly influences adaptive behaviors like long-term memory, but the correlating synaptic and molecular mechanisms remain unclear. The circadian clock comprises a canonical transcription-translation feedback loop (TTFL) strictly dependent on the BMAL1 transcription factor. We report that BMAL1 rhythmically localizes to hippocampal synapses in a manner dependent on its phosphorylation at Ser [pBMAL1(S42)]. pBMAL1(S42) regulates the autophosphorylation of synaptic CaMKIIα and circadian rhythms of CaMKIIα-dependent molecular interactions and LTP but not global rest/activity behavior. Therefore, our results suggest a model in which repurposing of the clock protein BMAL1 to synapses locally gates the circadian timing of plasticity.
ISSN:2375-2548
2375-2548
DOI:10.1126/sciadv.adj1010