Literature DB >> 26915078

The suprachiasmatic nucleus: age-related decline in biological rhythms.

Takahiro J Nakamura1, Nana N Takasu2, Wataru Nakamura3.   

Abstract

Aging is associated with changes in sleep duration and quality, as well as increased rates of pathologic/disordered sleep. While several factors contribute to these changes, emerging research suggests that age-related changes in the mammalian central circadian clock within the suprachiasmatic nucleus (SCN) may be a key factor. Prior work from our group suggests that circadian output from the SCN declines because of aging. Furthermore, we have previously observed age-related infertility in female mice, caused by a mismatch between environmental light-dark cycles and the intrinsic, internal biological clocks. In this review, we address regulatory mechanisms underlying circadian rhythms in mammals and summarize recent literature describing the effects of aging on the circadian system.

Entities:  

Keywords:  Aging; Circadian rhythm; Estrous cycle; Infertility; Suprachiasmatic nucleus

Mesh:

Year:  2016        PMID: 26915078     DOI: 10.1007/s12576-016-0439-2

Source DB:  PubMed          Journal:  J Physiol Sci        ISSN: 1880-6546            Impact factor:   2.781


  57 in total

1.  Clock mutation lengthens the circadian period without damping rhythms in individual SCN neurons.

Authors:  Wataru Nakamura; Sato Honma; Tetsuo Shirakawa; Ken-ichi Honma
Journal:  Nat Neurosci       Date:  2002-05       Impact factor: 24.884

Review 2.  Hypothalamic regulation of sleep and circadian rhythms.

Authors:  Clifford B Saper; Thomas E Scammell; Jun Lu
Journal:  Nature       Date:  2005-10-27       Impact factor: 49.962

3.  Age-related decline in circadian output.

Authors:  Takahiro J Nakamura; Wataru Nakamura; Shin Yamazaki; Takashi Kudo; Tamara Cutler; Christopher S Colwell; Gene D Block
Journal:  J Neurosci       Date:  2011-07-13       Impact factor: 6.167

4.  Aging and photoperiod affect entrainment and quantitative aspects of locomotor behavior in Syrian hamsters.

Authors:  K Scarbrough; S Losee-Olson; E P Wallen; F W Turek
Journal:  Am J Physiol       Date:  1997-04

Review 5.  Effects of age on the circadian system.

Authors:  F W Turek; P Penev; Y Zhang; O van Reeth; P Zee
Journal:  Neurosci Biobehav Rev       Date:  1995       Impact factor: 8.989

6.  Sleep apnea and cognitive function: where do we stand now?

Authors:  D L Bliwise
Journal:  Sleep       Date:  1993-12       Impact factor: 5.849

7.  Grafting fetal suprachiasmatic nuclei in the hypothalamus of old hamsters restores responsiveness of the circadian clock to a phase shifting stimulus.

Authors:  O Van Reeth; Y Zhang; P C Zee; F W Turek
Journal:  Brain Res       Date:  1994-04-18       Impact factor: 3.252

8.  Projections from the subparaventricular zone define four channels of output from the circadian timing system.

Authors:  Nina Vujovic; Joshua J Gooley; Thomas C Jhou; Clifford B Saper
Journal:  J Comp Neurol       Date:  2015-08-18       Impact factor: 3.215

9.  Circadian gene expression regulates pulsatile gonadotropin-releasing hormone (GnRH) secretory patterns in the hypothalamic GnRH-secreting GT1-7 cell line.

Authors:  Patrick E Chappell; Rachel S White; Pamela L Mellon
Journal:  J Neurosci       Date:  2003-12-03       Impact factor: 6.167

10.  Effects of aging on light-induced phase-shifting of circadian behavioral rhythms, fos expression and CREB phosphorylation in the hamster suprachiasmatic nucleus.

Authors:  Y Zhang; J M Kornhauser; P C Zee; K E Mayo; J S Takahashi; F W Turek
Journal:  Neuroscience       Date:  1996-02       Impact factor: 3.590
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  25 in total

Review 1.  The aging clock: circadian rhythms and later life.

Authors:  Suzanne Hood; Shimon Amir
Journal:  J Clin Invest       Date:  2017-02-01       Impact factor: 14.808

Review 2.  Aging and the clock: Perspective from flies to humans.

Authors:  Aliza K De Nobrega; Lisa C Lyons
Journal:  Eur J Neurosci       Date:  2018-10-30       Impact factor: 3.386

3.  Aging and circadian dysfunction increase alcohol sensitivity and exacerbate mortality in Drosophila melanogaster.

Authors:  Aliza K De Nobrega; Alana P Mellers; Lisa C Lyons
Journal:  Exp Gerontol       Date:  2017-07-25       Impact factor: 4.032

4.  Reshaping circadian metabolism in the suprachiasmatic nucleus and prefrontal cortex by nutritional challenge.

Authors:  Paola Tognini; Muntaha Samad; Kenichiro Kinouchi; Yu Liu; Jean-Christophe Helbling; Marie-Pierre Moisan; Kristin L Eckel-Mahan; Pierre Baldi; Paolo Sassone-Corsi
Journal:  Proc Natl Acad Sci U S A       Date:  2020-11-10       Impact factor: 11.205

5.  The central clock controls the daily rhythm of Aqp5 expression in salivary glands.

Authors:  Hitoshi Uchida; Takahiro J Nakamura; Nana N Takasu; Aya Obana-Koshino; Hitomi Ono; Takeshi Todo; Takayoshi Sakai; Wataru Nakamura
Journal:  J Physiol Sci       Date:  2017-05-08       Impact factor: 2.781

Review 6.  Aging circadian rhythms and cannabinoids.

Authors:  Erik L Hodges; Nicole M Ashpole
Journal:  Neurobiol Aging       Date:  2019-03-25       Impact factor: 4.673

Review 7.  Deregulation of CRTCs in Aging and Age-Related Disease Risk.

Authors:  Caroline C Escoubas; Carlos G Silva-García; William B Mair
Journal:  Trends Genet       Date:  2017-03-30       Impact factor: 11.639

Review 8.  Shift Work and Shift Work Sleep Disorder: Clinical and Organizational Perspectives.

Authors:  Emerson M Wickwire; Jeanne Geiger-Brown; Steven M Scharf; Christopher L Drake
Journal:  Chest       Date:  2016-12-21       Impact factor: 9.410

Review 9.  Role of GABA in the regulation of the central circadian clock of the suprachiasmatic nucleus.

Authors:  Daisuke Ono; Ken-Ichi Honma; Yuchio Yanagawa; Akihiro Yamanaka; Sato Honma
Journal:  J Physiol Sci       Date:  2018-03-20       Impact factor: 2.781

10.  Effects of testosterone on circadian rhythmicity in old mice.

Authors:  Atsuyoshi Hashimoto; Shingo Fujiki; Wataru Nakamura; Takahiro J Nakamura
Journal:  J Physiol Sci       Date:  2019-07-12       Impact factor: 2.781
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