PLoS ONE (Jan 2013)

Prolonged bioluminescence monitoring in mouse ex vivo bone culture revealed persistent circadian rhythms in articular cartilages and growth plates.

  • Naoki Okubo,
  • Yoichi Minami,
  • Hiroyoshi Fujiwara,
  • Yasuhiro Umemura,
  • Yoshiki Tsuchiya,
  • Toshiharu Shirai,
  • Ryo Oda,
  • Hitoshi Inokawa,
  • Toshikazu Kubo,
  • Kazuhiro Yagita

DOI
https://doi.org/10.1371/journal.pone.0078306
Journal volume & issue
Vol. 8, no. 11
p. e78306

Abstract

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The bone is a metabolically active organ which undergoes repeated remodeling cycles of bone resorption and formation. In this study, we revealed a robust and extremely long-lasting circadian rhythm in ex vivo culture maintained for over six months from the femoral bone of a PERIOD2(Luciferase) mouse. Furthermore, we also identified robust circadian clocks in flat bones. High- or low-magnification real-time bioluminescence microscopic imaging revealed that the robust circadian rhythms emanated from the articular cartilage and the epiphyseal cartilage within the growth plate of juvenile animals. Stimulation by forskolin or dexamethasone treatment caused type 0 phase resetting, indicating canonical entraining properties of the bone clock. Together, our findings from long-term ex vivo culture revealed that "tissue-autonomous" circadian rhythm in the articular cartilage and the growth plate of femoral bone functions for several months even in an organ culture condition, and provided a useful in vitro assay system investigating the role of the biological clock in bone formation or development.