iScience (Dec 2023)

Cold-induced suspension and resetting of Ca2+ and transcriptional rhythms in the suprachiasmatic nucleus neurons

  • Ryosuke Enoki,
  • Naohiro Kon,
  • Kimiko Shimizu,
  • Kenta Kobayashi,
  • Sota Hiro,
  • Ching-Pu Chang,
  • Tatsuto Nakane,
  • Hirokazu Ishii,
  • Joe Sakamoto,
  • Yoshifumi Yamaguchi,
  • Tomomi Nemoto

Journal volume & issue
Vol. 26, no. 12
p. 108390

Abstract

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Summary: Does the circadian clock keep running under such hypothermic states as daily torpor and hibernation? This fundamental question has been a research subject for decades but has remained unsettled. We addressed this subject by monitoring the circadian rhythm of clock gene transcription and intracellular Ca2+ in the neurons of the suprachiasmatic nucleus (SCN), master circadian clock, in vitro under a cold environment. We discovered that the transcriptional and Ca2+ rhythms are maintained at 22°C–28°C, but suspended at 15°C, accompanied by a large Ca2+ increase. Rewarming instantly resets the Ca2+ rhythms, while transcriptional rhythms reach a stable phase after the transient state and recover their phase relationship with the Ca2+ rhythm. We conclude that SCN neurons remain functional under moderate hypothermia but stop ticking in deep hypothermia and that the rhythms reset after rewarming. These data also indicate that stable Ca2+ oscillation precedes clock gene transcriptional rhythms in SCN neurons.

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