Molecular metabolism

Genetic and environmental disruption of body clocks may cause weight gain by changing gut bacteria

Updated

Abstract

Both circadian disruption models show reduced microbial rhythmicity in gastrointestinal tissues.

  • Circadian disruption leads to desynchronization of internal clocks within gastrointestinal tissues.
  • Reduced rhythmicity is particularly noted in bacteria involved in short-chain fatty acid fermentation and lipid metabolism.
  • Loss of microbial rhythmicity is associated with increased body weight and dysfunctional glucose regulation in mice.
  • Shift work exposure in mice also results in increased body weight.
  • Germ-free mice colonized with microbiota from shift work models exhibit weight gain linked to microbial changes.
  • Alterations in peripheral clock gene expression suggest a bidirectional relationship between microbial rhythmicity and host metabolism.

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