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Coupling-dependent metabolic ultradian rhythms in confluent cells

Shuzhang Yang, Shin Yamazaki, Kimberly H. Cox, Yi‐Lin Huang, Evan W. Miller, Joseph S. Takahashi

2022Proceedings of the National Academy of Sciences21 citationsDOIOpen Access PDF

Abstract

Ultradian rhythms in metabolism and physiology have been described previously in mammals. However, the underlying mechanisms for these rhythms are still elusive. Here, we report the discovery of temperature-sensitive ultradian rhythms in mammalian fibroblasts that are independent of both the cell cycle and the circadian clock. The period in each culture is stable over time but varies in different cultures (ranging from 3 to 24 h). We show that transient, single-cell metabolic pulses are synchronized into stable ultradian rhythms across contacting cells in culture by gap junction–mediated coupling. Coordinated rhythms are also apparent for other metabolic and physiological measures, including plasma membrane potential (Δψ p ), intracellular glutamine, α-ketoglutarate, intracellular adenosine triphosphate (ATP), cytosolic pH, and intracellular calcium. Moreover, these ultradian rhythms require extracellular glutamine, several different ion channels, and the suppression of mitochondrial ATP synthase by α-ketoglutarate, which provides a key feedback mechanism. We hypothesize that cellular coupling and metabolic feedback can be used by cells to balance energy demands for survival.

Topics & Concepts

Ultradian rhythmBiologyIntracellularCell biologyGlutamineAdenosine triphosphateExtracellularBiophysicsCytosolBiochemistryCircadian rhythmEndocrinologyAmino acidEnzymePhotoreceptor and optogenetics researchCircadian rhythm and melatoninLight effects on plants
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