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A whole-brain single-cell atlas of circadian neural activity in mice

Kazuyo YAMASHITA, Fukuaki L. Kinoshita, Shigetaka Yoshida, Katsuhiko Matsumoto, Tomoki T. Mitani, Hiroshi Fujishima, Yoichi Minami, Eiichi Morii, Rikuhiro G. Yamada, Seiji Okada, Hiroki R. Ueda

2025Science10 citationsDOI

Abstract

The mammalian brain comprises numerous anatomical regions with distinct functions despite their extensive connectivity. How spontaneous neural activity is coordinated across regions over the circadian cycle remains elusive. We used tissue clearing and whole-brain c-Fos immunostaining on 144 mouse brains collected over 2 days under constant darkness. Time-series analysis revealed brainwide circadian rhythmicity at single-cell resolution, with 79% of the 642 anatomically defined regions oscillating in diverse circadian phases that delineate functional specializations. Voxelwise analyses further highlighted distinct subregions, suggesting intricate spatiotemporal coordination within regions. Additionally, brain circadian time could be accurately inferred from global c-Fos patterns using omics-derived prediction methods. This whole-brain circadian atlas enhances our understanding of neural coordination and provides a resource for integrating time-of-day information into functional and pharmacological research.

Topics & Concepts

Circadian rhythmNeuroscienceBiologyNeural activityCircadian clockImmunostainingPhase response curveBrain mappingAtlas (anatomy)Premovement neuronal activityNerve netPeriod (music)Mammalian brainRodentBrain atlasSuprachiasmatic nucleusBrain activity and meditationLight effects on circadian rhythmBiological neural networkBacterial circadian rhythmsContext (archaeology)Central nervous systemNeuroanatomyRhythmCircadian rhythm and melatoninSingle-cell and spatial transcriptomicsNeural dynamics and brain function