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Misalignment with the external light environment drives metabolic and cardiac dysfunction

Author

Listed:
  • Alexander C. West

    (University of Manchester, Manchester Academic Health Science Centre)

  • Laura Smith

    (University of Manchester, Manchester Academic Health Science Centre)

  • David W. Ray

    (University of Manchester, Manchester Academic Health Science Centre)

  • Andrew S. I. Loudon

    (University of Manchester, Manchester Academic Health Science Centre)

  • Timothy M. Brown

    (University of Manchester, Manchester Academic Health Science Centre)

  • David A. Bechtold

    (University of Manchester, Manchester Academic Health Science Centre)

Abstract

Most organisms use internal biological clocks to match behavioural and physiological processes to specific phases of the day–night cycle. Central to this is the synchronisation of internal processes across multiple organ systems. Environmental desynchrony (e.g. shift work) profoundly impacts human health, increasing cardiovascular disease and diabetes risk, yet the underlying mechanisms remain unclear. Here, we characterise the impact of desynchrony between the internal clock and the external light–dark (LD) cycle on mammalian physiology. We reveal that even under stable LD environments, phase misalignment has a profound effect, with decreased metabolic efficiency and disrupted cardiac function including prolonged QT interval duration. Importantly, physiological dysfunction is not driven by disrupted core clock function, nor by an internal desynchrony between organs, but rather the altered phase relationship between the internal clockwork and the external environment. We suggest phase misalignment as a major driver of pathologies associated with shift work, chronotype and social jetlag.

Suggested Citation

  • Alexander C. West & Laura Smith & David W. Ray & Andrew S. I. Loudon & Timothy M. Brown & David A. Bechtold, 2017. "Misalignment with the external light environment drives metabolic and cardiac dysfunction," Nature Communications, Nature, vol. 8(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00462-2
    DOI: 10.1038/s41467-017-00462-2
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    Cited by:

    1. Alessandra Stangherlin & Joseph L. Watson & David C. S. Wong & Silvia Barbiero & Aiwei Zeng & Estere Seinkmane & Sew Peak Chew & Andrew D. Beale & Edward A. Hayter & Alina Guna & Alison J. Inglis & Ma, 2021. "Compensatory ion transport buffers daily protein rhythms to regulate osmotic balance and cellular physiology," Nature Communications, Nature, vol. 12(1), pages 1-14, December.

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