The circadian clock starts ticking at a developmentally early stage

Journal of Biological Rhythms

Volumn 25, Issue 6, 2010, Pages 442-449

  Kowalska, Elzbieta ^a   Moriggi, Ermanno ^a   Bauer, Christoph ^b   Dibner, Charna ^c   Brown, Steven A ^a  

^a UNIVERSITY OF ZURICH   (Switzerland)

^b UNIVERSITY OF GENEVA   (Switzerland)

^c GENEVA UNIVERSITY HOSPITALS   (Switzerland)

Author keywords

circadian; differentiation; embryonic stem cell

Indexed keywords

CIRCADIAN RHYTHM SIGNALING PROTEIN;

ANIMAL; ARTICLE; CELL DIFFERENTIATION; CELL LINE; CELL STRAIN 3T3; CIRCADIAN RHYTHM; CYTOLOGY; EMBRYONIC STEM CELL; GENE EXPRESSION REGULATION; GENETICS; HUMAN; METABOLISM; MOUSE; NERVE CELL; NEURAL STEM CELL; REVERSE TRANSCRIPTION POLYMERASE CHAIN REACTION; TIME; TUMOR CELL LINE;

3T3 CELLS; ANIMALS; CELL DIFFERENTIATION; CELL LINE; CELL LINE, TUMOR; CIRCADIAN CLOCKS; EMBRYONIC STEM CELLS; GENE EXPRESSION REGULATION, DEVELOPMENTAL; HUMANS; MICE; NEURAL STEM CELLS; NEURONS; PERIOD CIRCADIAN PROTEINS; REVERSE TRANSCRIPTASE POLYMERASE CHAIN REACTION; TIME FACTORS;

MAMMALIA;

EID: 78650163484     PISSN: 07487304     EISSN: 15524531     Source Type: Journal    
DOI: 10.1177/0748730410385281     Document Type: Article

References (40)

1. Ansari N., Agathagelidis M., Lee C., Korf HW, and von Gall C. (2009) Differential maturation of circadian rhythms in clock gene proteins in the suprachiasmatic nucleus and the pars tuberalis during mouse ontogeny. Eur J Neurosci 29: 477-489.
2. Brown SA, Fleury-Olela F., Nagoshi E., Hauser C., Juge C., Meier CA, Chicheportiche R., Dayer JM, Albrecht U., and Schibler U. (2005) The period length of fibroblast circadian gene expression varies widely among human individuals. PLoS Biol 3 :e 338.
3. Brown SA, Kunz D., Dumas A., Westermark PO, Vanselow K., Tilmann-Wahnschaffe A., Herzel H., and Kramer A. (2008) Molecular insights into human daily behavior. Proc Natl Acad Sci U S A 105: 1602-1607.
4. Capowski EE, Schneider BL, Ebert AD, Seehus CR, Szulc J., Zufferey R., Aebischer P., and Svendsen CN (2007) Lentiviral vector-mediated genetic modification of human neural progenitor cells for ex vivo gene therapy. J Neurosci Methods 163: 338-349.
5. Collis SJ and Boulton SJ (2007) Emerging links between the biological clock and the DNA damage response. Chromosoma 116: 331-339.
6. Conley BJ, Denham M., Gulluyan L., Ollson F., Cole TJ, and Mollard R. (2005) Mouse embryonic stem cell derivation, and mouse and human embryonic stem cell culture and differentiation as embryoid bodies. In Current Protocols in Cell Biology, Bonifacino JS, ed. New York: Wiley. Chap 23.2.
7. Davis FC and Gorski RA (1985) Development of hamster circadian rhythms. I: within-litter synchrony of mother and pup activity rhythms at weaning. Biol Reprod 33: 353-362.
8. Davis FC and Gorski RA (1988) Development of hamster circadian rhythms: role of the maternal suprachiasmatic nucleus. J Comp Physiol A 162: 601-610.
9. Davis FC and Reppert SM (2001) Development of mammalian circadian rhythms. In Handbook of Behavioral Neurobiology, Vol. 12: Circadian Clocks, Takahashi JS, Turek FW, and Moore RY, eds, pp 247-290. New York: Kluwer.
10. Dekens MP and Whitmore D. (2008) Autonomous onset of the circadian clock in the zebrafish embryo. Embo J 27: 2757-2765.
11. Dibner C., Sage D., Unser M., Bauer C., d'Eysmond T., Naef F., and Schibler U. (2009) Circadian gene expression is resilient to large fluctuations in overall transcription rates. Embo J 28: 123-134.
12. Dolatshad H., Cary AJ, and Davis FC (2010) Differential expression of the circadian clock in maternal and embryonic tissues of mice. PLoS One 5: e9855.
13. Finlay BL and Darlington RB (1995) Linked regularities in the development and evolution of mammalian brains. Science 268: 1578-1584.
14. Gotz M. and Sommer L. (2005) Cortical development: the art of generating cell diversity. Development 132: 3327-3332.
15. Gunther HS, Schmidt NO, Phillips HS, Kemming D., Kharbanda S., Soriano R., Modrusan Z., Meissner H., Westphal M., and Lamszus K. (2008) Glioblastomaderived stem cell-enriched cultures form distinct subgroups according to molecular and phenotypic criteria. Oncogene 27: 2897-2909.
16. Kingston RE, Chomczynski P., and Sacchi N. (2001) Guanidine methods for total RNA preparation. In Current Protocols in Molecular Biology, Ausubel FM, ed. New York: Wiley. Chap 4.2.
17. Ko MS, Kitchen JR, Wang X., Threat TA, Wang X., Hasegawa A., Sun T., Grahovac MJ, Kargul GJ, Lim MK, et al. (2000) Large-scale cDNA analysis reveals phased gene expression patterns during preimplantation mouse development. Development 127: 1737-1749.
18. Li X. and Davis FC (2005) Developmental expression of clock genes in the Syrian hamster. Brain Res Dev Brain Res 158: 31-40.
19. Plautz JD, Kaneko M., Hall JC, and Kay SA (1997) Independent photoreceptive circadian clocks throughout Drosophila. Science 278: 1632-1635.
20. Preitner N., Damiola F., Lopez-Molina L., Zakany J., Duboule D., Albrecht U., and Schibler U. (2002) The orphan nuclear receptor REV-ERBalpha controls circadian transcription within the positive limb of the mammalian circadian oscillator. Cell 110: 251-260.
21. Reppert SM and Schwartz WJ (1983) Maternal coordination of the fetal biological clock in utero. Science 220: 969-971.
22. Reppert SM and Schwartz WJ (1986) Maternal suprachiasmatic nuclei are necessary for maternal coordination of the developing circadian system. J Neurosci 6: 2724-2729.
23. Ripperger JA and Brown SA (2009) Transcriptional regulation of circadian clocks. In Protein Reviews, Vol. 12: The Circadian Clock, Albrecht U, ed, pp 37-78. New York: Springer.
24. Sage D., Neumann FR, Hediger F., Gasser SM, and Unser M. (2005) Automatic tracking of individual fluorescence particles: application to the study of chromosome dynamics. IEEE Trans Image Process 14: 1372-1383.
25. Sahar S. and Sassone-Corsi P. (2009) Metabolism and cancer: the circadian clock connection. Nat Rev Cancer 9: 886-896.
26. Saxena MT, Aton SJ, Hildebolt C., Prior JL, Abraham U., Piwnica-Worms D., and Herzog ED (2007) Bioluminescence imaging of period1 gene expression in utero. Mol Imaging 6: 68-72.
27. Sehgal A., Price J., and Young MW (1992) Ontogeny of a biological clock in Drosophila melanogaster. Proc Natl Acad Sci U S A 89: 1423-1427.
28. Seron-Ferre M., Torres-Farfan C., Forcelledo ML, and Valenzuela GJ (2001) The development of circadian rhythms in the fetus and neonate. Semin Perinatol 25: 363-370.
29. Shibata S. and Moore RY (1987) Development of neuronal activity in the rat suprachiasmatic nucleus. Brain Res 431: 311-315.
30. Sladek M., Sumova A., Kovacikova Z., Bendova Z., Laurinova K., and Illnerova H. (2004) Insight into molecular core clock mechanism of embryonic and early postnatal rat suprachiasmatic nucleus. Proc Natl Acad Sci U S A 101: 6231-6236.
31. Strutz F., Okada H., Lo CW, Danoff T., Carone RL, Tomaszewski JE, and Neilson EG (1995) Identification and characterization of a fibroblast marker: FSP1. J Cell Biol 130: 393-405.
32. Sumova A., Bendova Z., Sladek M., El-Hennamy R., Laurinova K., Jindrakova Z., and Illnerova H. (2006) Setting the biological time in central and peripheral clocks during ontogenesis. FEBS Lett 580: 2836-2842.
33. Svendsen CN, ter Borg MG, Armstrong RJ, Rosser AE, Chandran S., Ostenfeld T., and Caldwell MA (1998) A new method for the rapid and long term growth of human neural precursor cells. J Neurosci Methods 85: 141-152.
34. Tarnok A., Ulrich H., and Bocsi J. (2010) Phenotypes of stem cells from diverse origin. Cytometry A 77: 6-10.
35. Welsh DK, Logothetis DE, Meister M., and Reppert SM (1995) Individual neurons dissociated from rat suprachiasmatic nucleus express independently phased circadian firing rhythms. Neuron 14: 697-706.
36. Whitmore D., Foulkes NS, and Sassone-Corsi P. (2000) Light acts directly on organs and cells in culture to set the vertebrate circadian clock. Nature 404: 87-91.
37. Yagita K., Horie K., Koinuma S., Nakamura W., Yamanaka I., Urasaki A., Shigeyoshi Y., Kawakami K., Shimada S., Takeda J., and Uchiyama Y. (2010) Development of the circadian oscillator during differentiation of mouse embryonic stem cells in vitro. Proc Natl Acad Sci U S A 107: 3846-3851.
38. Yagita K., Tamanini F., van Der Horst GT, and Okamura H. (2001) Molecular mechanisms of the biological clock in cultured fibroblasts. Science 292: 278-281.
39. Yamazaki S., Numano R., Abe M., Hida A., Takahashi R., Ueda M., Block GD, Sakaki Y., Menaker M., and Tei H. (2000) Resetting central and peripheral circadian oscillators in transgenic rats. Science 288: 682-685.
40. Ziv L. and Gothilf Y. (2006) Circadian time-keeping during early stages of development. Proc Natl Acad Sci U S A 103: 4146-4151.