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On the Communication Pathways between the Central Pacemaker and Peripheral Oscillators

  1. Derek J. Chadwick Organizer,
  2. Jamie A. Goode
  1. Nicolas Cermakian1,4,
  2. Matthew P. Pando1,2,
  3. Masao Doi1,
  4. Luca Cardone1,
  5. Irene Yujnovsky1,
  6. David Morse1,3,
  7. Paolo Sassone-Corsi1,*

Published Online: 7 OCT 2008

DOI: 10.1002/0470090839.ch10

Book Title

Molecular Clocks and Light Signalling: Novartis Foundation Symposium 253

Molecular Clocks and Light Signalling: Novartis Foundation Symposium 253

Additional Information

How to Cite

Cermakian, N., Pando, M. P., Doi, M., Cardone, L., Yujnovsky, I., Morse, D. and Sassone-Corsi, P. (2008) On the Communication Pathways between the Central Pacemaker and Peripheral Oscillators, in Molecular Clocks and Light Signalling: Novartis Foundation Symposium 253 (eds D. J. Chadwick and J. A. Goode), John Wiley & Sons, Ltd, Chichester, UK. doi: 10.1002/0470090839.ch10

Author Information

  1. 1

    Institut de Génétique et de Biologie Moléculaire et Cellulaire, 1 rue Laurent Fries, 67404 Illkirch, Strasbourg, France

  2. 2

    ExonHit Therapeutics, 217 Perry Parkway, Building 5, Gaithersburg, Maryland 20877, USA

  3. 3

    Département des Sciences Biologiques, Université de Montréal, Montréal (QC) H3C 3J7, Canada

  4. 4

    Douglas Hospital Research Center, McGill University, 6875 La Salle Boulevard, Montréal (QC) H4H 1R3, Canada

*Institut de Génétique et de Biologie, Moleculaire et Cellulaire, CNRS-INSERM, Université Louis Pasteur, 1 Rue Laurent Fries, BP 163, Illkirch-Strasbourg, 67404, France

Publication History

  1. Published Online: 7 OCT 2008
  2. Published Print: 28 OCT 2003

Book Series:

  1. Novartis Foundation Symposia

Book Series Editors:

  1. Novartis Foundation

ISBN Information

Print ISBN: 9780470852835

Online ISBN: 9780470090831

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Summary

Circadian rhythms are regulated by clocks located in specific structures of the CNS, such as the suprachiasmatic nucleus (SCN) in mammals, and by peripheral oscillators present in various other tissues. The expression of essential clock genes oscillates both in the SCN and in peripheral pacemakers. Peripheral tissues in the fly and in the fish are directly photoreceptive. In particular, we have established the Z3 embryonic zebrafish cell line that recapitulates the dynamic light-dependent regulation of the vertebrate clock in vitro. In mammals the synchronization to daily light cycles involves neural connections from a subset of light-sensitive receptor-containing retinal ganglion cells. Humoral and/or hormonal signals originating from the SCN are thought to provide timing cues to peripheral clocks. However, alternative routes exist, as some peripheral clocks in mammals can be specifically entrained in a SCN-independent manner by restricted feeding regimes. Thus, not all peripheral tissues are equal in circadian rhythmicity. Testis, for example, displays no intrinsic circadian rhythmicity and the molecular mechanisms of clock gene activation in male germ cells appear to differ from other tissues. The study of the connecting routes that link the SCN to peripheral tissues is likely to reveal signalling pathways of fundamental physiological significance.

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