Journal of Circadian Rhythms (Oct 2006)

<it>Clock </it>mutation affects circadian regulation of circulating blood cells

  • Horie Shuichi,
  • Machida Kazuhiko,
  • Matsuda Juzo,
  • Shibusawa Kentaro,
  • Kasamatsu Manami,
  • Kadota Koji,
  • Ohkura Naoki,
  • Oishi Katsutaka,
  • Ishida Norio

DOI
https://doi.org/10.1186/1740-3391-4-13
Journal volume & issue
Vol. 4, no. 1
p. 13

Abstract

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Abstract Background Although the number of circulating immune cells is subject to high-amplitude circadian rhythms, the underlying mechanisms are not fully understood. Methods To determine whether intact CLOCK protein is required for the circadian changes in peripheral blood cells, we examined circulating white (WBC) and red (RBC) blood cells in homozygous Clock mutant mice. Results Daytime increases in total WBC and lymphocytes were suppressed and slightly phase-delayed along with plasma corticosterone levels in Clock mutant mice. The peak RBC rhythm was significantly reduced and phase-advanced in the Clock mutants. Anatomical examination revealed hemoglobin-rich, swollen red spleens in Clock mutant mice, suggesting RBC accumulation. Conclusion Our results suggest that endogenous clock-regulated circadian corticosterone secretion from the adrenal gland is involved in the effect of a Clock mutation on daily profiles of circulating WBC. However, intact CLOCK seems unnecessary for generating the rhythm of corticosterone secretion in mice. Our results also suggest that CLOCK is involved in discharge of RBC from the spleen.