Literature DB >> 18487196

cAMP-dependent signaling as a core component of the mammalian circadian pacemaker.

John S O'Neill1, Elizabeth S Maywood, Johanna E Chesham, Joseph S Takahashi, Michael H Hastings.   

Abstract

The mammalian circadian clockwork is modeled as transcriptional and posttranslational feedback loops, whereby circadian genes are periodically suppressed by their protein products. We show that adenosine 3',5'-monophosphate (cAMP) signaling constitutes an additional, bona fide component of the oscillatory network. cAMP signaling is rhythmic and sustains the transcriptional loop of the suprachiasmatic nucleus, determining canonical pacemaker properties of amplitude, phase, and period. This role is general and is evident in peripheral mammalian tissues and cell lines, which reveals an unanticipated point of circadian regulation in mammals qualitatively different from the existing transcriptional feedback model. We propose that daily activation of cAMP signaling, driven by the transcriptional oscillator, in turn sustains progression of transcriptional rhythms. In this way, clock output constitutes an input to subsequent cycles.

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Year:  2008        PMID: 18487196      PMCID: PMC2735813          DOI: 10.1126/science.1152506

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  26 in total

1.  Synchronization of cellular clocks in the suprachiasmatic nucleus.

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Journal:  Science       Date:  2003-11-21       Impact factor: 47.728

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Authors:  Michael H Hastings; Akhilesh B Reddy; Elizabeth S Maywood
Journal:  Nat Rev Neurosci       Date:  2003-08       Impact factor: 34.870

Review 3.  Transcriptional feedback oscillators: maybe, maybe not...

Authors:  Patricia L Lakin-Thomas
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4.  Intracellular Ca2+ regulates free-running circadian clock oscillation in vivo.

Authors:  Marie C Harrisingh; Ying Wu; Gregory A Lnenicka; Michael N Nitabach
Journal:  J Neurosci       Date:  2007-11-14       Impact factor: 6.167

5.  Functional consequences of a CKIdelta mutation causing familial advanced sleep phase syndrome.

Authors:  Ying Xu; Quasar S Padiath; Robert E Shapiro; Christopher R Jones; Susan C Wu; Noriko Saigoh; Kazumasa Saigoh; Louis J Ptácek; Ying-Hui Fu
Journal:  Nature       Date:  2005-03-31       Impact factor: 49.962

6.  GABA and Gi/o differentially control circadian rhythms and synchrony in clock neurons.

Authors:  Sara J Aton; James E Huettner; Martin Straume; Erik D Herzog
Journal:  Proc Natl Acad Sci U S A       Date:  2006-11-30       Impact factor: 11.205

7.  A novel cyclic AMP-dependent Epac-Rit signaling pathway contributes to PACAP38-mediated neuronal differentiation.

Authors:  Geng-Xian Shi; Holger Rehmann; Douglas A Andres
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8.  Cycling of CRYPTOCHROME proteins is not necessary for circadian-clock function in mammalian fibroblasts.

Authors:  Yunzhen Fan; Akiko Hida; Daniel A Anderson; Mariko Izumo; Carl Hirschie Johnson
Journal:  Curr Biol       Date:  2007-06-21       Impact factor: 10.834

9.  Feedback repression is required for mammalian circadian clock function.

Authors:  Trey K Sato; Rikuhiro G Yamada; Hideki Ukai; Julie E Baggs; Loren J Miraglia; Tetsuya J Kobayashi; David K Welsh; Steve A Kay; Hiroki R Ueda; John B Hogenesch
Journal:  Nat Genet       Date:  2006-02-12       Impact factor: 38.330

10.  Synchronization and maintenance of timekeeping in suprachiasmatic circadian clock cells by neuropeptidergic signaling.

Authors:  Elizabeth S Maywood; Akhilesh B Reddy; Gabriel K Y Wong; John S O'Neill; John A O'Brien; Douglas G McMahon; Anthony J Harmar; Hitoshi Okamura; Michael H Hastings
Journal:  Curr Biol       Date:  2006-03-21       Impact factor: 10.834
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  183 in total

Review 1.  Regulation of metabolism: the circadian clock dictates the time.

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2.  Coordination of the transcriptome and metabolome by the circadian clock.

Authors:  Kristin L Eckel-Mahan; Vishal R Patel; Robert P Mohney; Katie S Vignola; Pierre Baldi; Paolo Sassone-Corsi
Journal:  Proc Natl Acad Sci U S A       Date:  2012-03-19       Impact factor: 11.205

3.  Chronic stimulation of the hypothalamic vasoactive intestinal peptide receptor lengthens circadian period in mice and hamsters.

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Journal:  Am J Physiol Regul Integr Comp Physiol       Date:  2010-05-12       Impact factor: 3.619

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Journal:  Nat Rev Mol Cell Biol       Date:  2010-11       Impact factor: 94.444

5.  High glucose, no cry.

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Journal:  Nat Med       Date:  2010-10       Impact factor: 53.440

6.  A small molecule modulates circadian rhythms through phosphorylation of the period protein.

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Journal:  Angew Chem Int Ed Engl       Date:  2011-09-26       Impact factor: 15.336

7.  A Role for the Adenosine ADORA2B Receptor in Midazolam Induced Cognitive Dysfunction.

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Journal:  Curr Pharm Des       Date:  2020       Impact factor: 3.116

Review 8.  Circadian redox rhythms in the regulation of neuronal excitability.

Authors:  Mia Y Bothwell; Martha U Gillette
Journal:  Free Radic Biol Med       Date:  2018-02-02       Impact factor: 7.376

9.  Circadian rhythm of contrast sensitivity is regulated by a dopamine-neuronal PAS-domain protein 2-adenylyl cyclase 1 signaling pathway in retinal ganglion cells.

Authors:  Christopher K Hwang; Shyam S Chaurasia; Chad R Jackson; Guy C-K Chan; Daniel R Storm; P Michael Iuvone
Journal:  J Neurosci       Date:  2013-09-18       Impact factor: 6.167

Review 10.  Circadian Rhythms in the Pathogenesis and Treatment of Fatty Liver Disease.

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Journal:  Gastroenterology       Date:  2020-02-13       Impact factor: 22.682
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