During winter hibernation, a diverse range of small mammals can enter prolonged torpor. They spend the nonhibernation season as a homeotherm but the hibernation season as a heterotherm. In the hibernation season, chipmunks (Tamias asiaticus) cycle regularly between 5 and 6 days-long deep torpor with a body temperature (Tb) of 5 to 7 °C and interbout arousal of ∼20 h, during which, their Tb returns to the normothermic level. Here, we investigated Per2 expression in the liver to elucidate the regulation of the peripheral circadian clock in a mammalian hibernator. In the nonhibernation season, as in mice, heat shock factor 1, activated by elevated Tb during the wake period, activated Per2 transcription in the liver, which contributed to synchronizing the peripheral circadian clock to the Tb rhythm. In the hibernation season, we determined that the Per2 mRNA was at low levels during deep torpor, but Per2 transcription was transiently activated by heat shock factor 1, which was activated by elevated Tb during interbout arousal. Nevertheless, we found that the mRNA from the core clock gene Bmal1 exhibited arrhythmic expression during interbout arousal. Since circadian rhythmicity is dependent on negative feedback loops involving the clock genes, these results suggest that the peripheral circadian clock in the liver is nonfunctional in the hibernation season.
Keywords: HSF1; chromatin immunoprecipitation; circadian clock; clock gene; mammalian hibernation; transcription regulation.
Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.