Abstract
Hyperosmolarity (but not hypo-osmolarity) resets clocks in young and ageing skeletal tissues and induce genome-wide expression of rhythmic genes in cells. Mechanistically, RNAseq and biochemical analysis revealed the PLD2-mTORC2-AKT-GSK3β axis as a convergent pathway for both in vivo loading and hyperosmolarity-induced clock changes. These results reveal diurnal patterns of mechanical loading and consequent daily oscillations in osmolarity as a bona fide tissue niche-specific time cue to maintain skeletal circadian rhythms in sync.
Original language | English |
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Article number | 7237 |
Journal | Nature Communications |
Volume | 14 |
Issue number | 1 |
DOIs | |
Publication status | Published - 14 Nov 2023 |
Keywords
- Animals
- Circadian Clocks/physiology
- Cues
- Circadian Rhythm/physiology
- Mammals/physiology
- Time
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Centre for Biological Timing
Lucas, R. (PI), Bechtold, D. (PI), Fustin, J.-M. (PI), Ashe, H. (PI), Brown, T. (PI), Blaikley, J. (PI), Brass, A. (PI), Chandola, T. (PI), Durrington, H. (PI), Else, K. (PI), Hepworth, M. (PI), Hunter, L. (PI), Kadler, K. (PI), Kitchen, G. (PI), Loudon, A. (PI), Macdonald, A. (PI), Mcbeth, J. (PI), Milosavljevic, N. (PI), Rattray, M. (PI), Rutter, M. (PI), Sharrocks, A. (PI), Spiller, D. (PI), Storchi, R. (PI), Belle, M. (PI), Meng, Q.-J. (PI), Allen, A. (PI), Dixon, W. (PI), Gibbs, J. (PI), Hazel, A. (PI), Papalopulu, N. (PI), Ray, D. (PI), White, M. (PI) & Chang, J. (PI)
Project: Research