Reciprocal interactions between circadian clocks and aging

被引:43
作者
Banks, Gareth [1 ]
Nolan, Patrick M. [1 ]
Peirson, Stuart N. [2 ]
机构
[1] MRC Harwell, Harwell Sci & Innovat Campus, Didcot OX11 0RD, Oxon, England
[2] Sir William Dunn Sch Pathol, Sleep & Circadian Neurosci Inst SCNi, Nuffield Dept Clin Neurosci, Oxford Mol Pathol Inst, South Parks Rd, Oxford OX1 3RE, Oxon, England
来源
MAMMALIAN GENOME | 2016年 / 27卷 / 7-8期
基金
英国医学研究理事会;
关键词
MESSENGER-RNA EXPRESSION; AGE-RELATED DECLINE; SUPRACHIASMATIC NUCLEUS; GENE-EXPRESSION; SHIFT WORK; LIFE-SPAN; LIGHT; SLEEP; RHYTHMS; BRAIN;
D O I
10.1007/s00335-016-9639-6
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
Virtually, all biological processes in the body are modulated by an internal circadian clock which optimizes physiological and behavioral performance according to the changing demands of the external 24-h world. This circadian clock undergoes a number of age-related changes, at both the physiological and molecular levels. While these changes have been considered to be part of the normal aging process, there is increasing evidence that disruptions to the circadian system can substantially impact upon aging and these impacts will have clear health implications. Here we review the current data of how both the physiological and core molecular clocks change with age and how feedback from external cues may modulate the aging of the circadian system.
引用
收藏
页码:332 / 340
页数:9
相关论文
共 76 条
[1]   Circadian profile of Per gene mRNA expression in the suprachiasmatic nucleus, paraventricular nucleus, and pineal body of aged rats [J].
Asai, M ;
Yoshinobu, Y ;
Kaneko, S ;
Mori, A ;
Nikaido, T ;
Moriya, T ;
Akiyama, M ;
Shibata, S .
JOURNAL OF NEUROSCIENCE RESEARCH, 2001, 66 (06) :1133-1139
[2]  
Atlantis E, 2008, AM J CLIN NUTR, V88, P95
[3]   Circadian behavior is light-reprogrammed by plastic DNA methylation [J].
Azzi, Abdelhalim ;
Dallmann, Robert ;
Casserly, Alison ;
Rehrauer, Hubert ;
Patrignani, Andrea ;
Maier, Bert ;
Kramer, Achim ;
Brown, Steven A. .
NATURE NEUROSCIENCE, 2014, 17 (03) :377-382
[4]   Genetic background influences age-related decline in visual and nonvisual retinal responses, circadian rhythms, and sleep [J].
Banks, Gareth ;
Heise, Ines ;
Starbuck, Becky ;
Osborne, Tamzin ;
Wisby, Laura ;
Potter, Paul ;
Jackson, Ian J. ;
Foster, Russell G. ;
Peirson, Stuart N. ;
Nolan, Patrick M. .
NEUROBIOLOGY OF AGING, 2015, 36 (01) :380-393
[5]   Circadian clock resetting in the mouse changes with age [J].
Biello, Stephany M. .
AGE, 2009, 31 (04) :293-303
[6]   Differential modulation of clock gene expression in the suprachiasmatic nucleus, liver and heart of aged mice [J].
Bonaconsa, Marta ;
Malpeli, Giorgio ;
Montaruli, Angela ;
Carandente, Franca ;
Grassi-Zucconi, Gigliola ;
Bentivoglio, Marina .
EXPERIMENTAL GERONTOLOGY, 2014, 55 :70-79
[7]   Arginine-vasopressin and vasointestinal polypeptide rhythms in the suprachiasmatic nucleus of the mouse lemur reveal aging-related alterations of circadian pacemaker neurons in a non-human primate [J].
Cayetanot, F ;
Bentivoglio, M ;
Aujard, F .
EUROPEAN JOURNAL OF NEUROSCIENCE, 2005, 22 (04) :902-910
[8]   SIRT1 Mediates Central Circadian Control in the SCN by a Mechanism that Decays with Aging [J].
Chang, Hung-Chun ;
Guarente, Leonard .
CELL, 2013, 153 (07) :1448-1460
[9]   The circadian rhythm controls telomeres and telomerase activity [J].
Chen, Wei-Dar ;
Wen, Ming-Shien ;
Shie, Shian-Sen ;
Lo, Yu-Lun ;
Wo, Hung-Ta ;
Wang, Chun-Chieh ;
Hsieh, I-Chang ;
Lee, Tsong-Hai ;
Wang, Chao-Yung .
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 2014, 451 (03) :408-414
[10]   Lab Mice in the Field: Unorthodox Daily Activity and Effects of a Dysfunctional Circadian Clock Allele [J].
Daan, Serge ;
Spoelstra, Kamiel ;
Albrecht, Urs ;
Schmutz, Isabelle ;
Daan, Moritz ;
Daan, Berte ;
Rienks, Froukje ;
Poletaeva, Inga ;
Dell'Omo, Giacomo ;
Vyssotski, Alexei ;
Lipp, Hans-Peter .
JOURNAL OF BIOLOGICAL RHYTHMS, 2011, 26 (02) :118-129
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