Aging and the clock: Perspective from flies to humans

Nobrega, Aliza K. De; Lyons, Lisa C.

doi:10.1111/ejn.14176

Cited by 38 publications

(24 citation statements)

References 379 publications

(486 reference statements)

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“…Circadian rhythms undergo alterations during normal aging and exhibit more pronounced disturbances in AD. While this review has been limited to studies in mammals, age‐related circadian rhythm changes have also been investigated in Drosophila (for review, see De Nobrega & Lyons, ; Giebultowicz & Long, ). In mammals, both normal aging and AD are accompanied by alterations in the SCN, including decreased expression of neuropeptides and increased glial activation.…”

Section: Discussionmentioning

confidence: 99%

Interacting influences of aging and Alzheimer's disease on circadian rhythms

Duncan

2019

Eur J of Neuroscience

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Aging leads to changes in circadian rhythms, including decreased amplitude or robustness, altered synchrony with the environment, and reduced coordination of rhythms within body. These circadian rhythm alterations are more pronounced in age‐associated neurodegenerative disorders such as Alzheimer's disease (AD), in which they often precede the onset of other symptoms by many years. As well as their early onset, the findings that fragmentation of daily rest‐activity rhythms in non‐demented older subjects is associated earlier cognitive decline, increased risk of incident AD, and preclinical AD neuropathology, suggest that circadian rhythm disruption may contribute to the development and progression of the neuropathological changes occurring in AD. Conversely, other studies have implicated amyloid‐beta, a prominent neurotoxin that accumulates in AD, in the impairment of circadian rhythms. Thus, circadian rhythm disruption and AD‐associated neurodegeneration may interact to form a deleterious cycle. This article reviews the neural and molecular mechanisms underlying the age‐ and AD‐related changes in circadian rhythms. It also explores therapeutic strategies proposed to ameliorate circadian rhythm deficits in elderly and demented individuals.

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Section: Discussionmentioning

confidence: 99%

Interacting influences of aging and Alzheimer's disease on circadian rhythms

Duncan

2019

Eur J of Neuroscience

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“…The other mechanism regulating sleep, the circadian rhythm, changes in older age. The mammalian circadian rhythm pacemaker, the hypothalamic suprachiasmatic nucleus, differs in older ages in terms of cellular composition, neural activity and neurotransmission, which may alter synchrony amongst neurons, response to light, and amplitude and period of the rhythm generated (De Nobrega & Lyons, ; Duffy, Zitting, & Chinoy, ). These may cause an earlier sleep time, increase the number of daytime naps and disrupt the continuity of night sleep.…”

Section: Discussionmentioning

confidence: 99%

“…The ageing world population is making age‐related health problems a major public health issue. Worsening sleep as we age has been recognised as a contributor towards health problems in the elderly (De Nobrega & Lyons, ). Predicted brain age using an electroencephalogram of sleep, has shown that people have healthier ageing if their estimated brain age is less than their chronological age (Sun et al., ).…”

Section: Discussionmentioning

confidence: 99%

Longitudinal sleep efficiency in the elderly and its association with health

Didikoglu

Maharani

Tampubolon

et al. 2019

Journal of Sleep Research

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The relationships between older age and sleep efficiency have traditionally been assessed using cross‐sectional studies that ignore changes within individuals as they age. This research examines the determinants of sleep efficiency, the heterogeneity in an individual's sleep efficiency trajectory across a period of up to 27 years in later life and its associations with health. The University of Manchester Longitudinal Study of Cognition in Normal Healthy Old Age cohort (n = 6,375; age 42–94 years) was used in this study. Depression and health data were collected using self‐report validated instruments (Cornell Medical Index, Beck Depression Inventory and Geriatric Depression Scale). Longitudinal sleep and sociodemographic data were collected using a study‐specific self‐report questionnaire. A mixed‐effect model was performed for sleep efficiency with adjustments for time‐invariant and time‐variant predictors. Latent class analysis was used to demonstrate subgroups of sleep efficiency trajectories and associations between sleep efficiency clusters and health history of the participants were investigated. Older adults have decreased sleep efficiency over time, with 18.6% decline between 40 and 100 years of age. Three sleep efficiency trajectory clusters were identified: high (32%), medium (50%) and low sleep efficiency (18%). Belonging to the high sleep efficiency cluster was associated with having lower prevalence of hypertension, circulatory problems, general arthritis, breathing problems and recurrent episodes of depression compared to the low efficiency cluster. Overall, ageing decreases sleep efficiency. However, there are detectable subgroups of sleep efficiency that are related to prevalence of different diseases.

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“…Ageing is a normal part of developmental change, and thus, circadian clocks also change across the lifespan. Age‐related clock dysfunction and strategies to reinforce circadian cycles in order to diminish these perturbations are reviewed by De Nobrega and Lyons, (). The authors point out that the fruit fly is a classic model that can be used to study the interactions between the circadian clock and age‐related decline because of the short life span and the neurogenetic tools that are available (De Nobrega & Lyons, ).…”

Section: Evolution and Adaptation Of Clocksmentioning

confidence: 99%

“…Age‐related clock dysfunction and strategies to reinforce circadian cycles in order to diminish these perturbations are reviewed by De Nobrega and Lyons, (). The authors point out that the fruit fly is a classic model that can be used to study the interactions between the circadian clock and age‐related decline because of the short life span and the neurogenetic tools that are available (De Nobrega & Lyons, ). In mammals, ageing impacts SCN‐regulated pathways, including sleep timing and entrainment to the LD cycle (Michel & Meijer, ).…”

Section: Evolution and Adaptation Of Clocksmentioning

confidence: 99%

Circadian rhythmicity and the community of clockworkers

Gamble

Silver

2019

Eur J of Neuroscience

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ReviewCauston, Helen C. Metab olic rhyth ms: A frame work for coord inati ng cellu lar function Golden, Susan S. Princ iples of rhyth micit y emerg ing from cyano bacteria Loros, Jennifer J. Princ iples of the anima l molec ular clock learn ed from Neuro spora Circadian rhythms in complex systems Exp't Gillette, Martha U. Circa dian rhyth m of redox state regul ates membr ane excit abili ty in hippo campa l CA1 neurons Prosser, Rebecca A. Coppe r in the supra chias matic circa dian clock : A possi ble link betwe en multi ple circa dian oscil lators Silver, Rae Overe xpres sion of stria tal D2 recep tors reduc es motiv ation there by decre asing food antic ipato ry activity Stengl, Monika Circa dian pacem aker neuro ns of the Madei ra cockr oach are inhib ited and activ ated by GABAA and GABAB recep tors Review Evans, Jennifer A. Circu it devel opmen t in the maste r clock netwo rk of mammals Gamble, Karen L. Circa dian regul ation of membr ane physi ology in neura l oscil lator s throu ghout the brain Green, Carla B. Perio dicit y, repre ssion , and the molec ular archi tectu re of the mamma lian circa dian clock Helfrich-Föerster, Charlotte Flies as model s for circa dian clock adapt ation to envir onmen tal chall enges Honma, Sato Devel opmen t of the mamma lian circa dian clock Ko, Gladys Y.-P. Circa dian regul ation in the retin a: From molec ules to network Mahoney, Megan M. Modul ation of circa dian rhyth ms throu gh estro gen recep tor signa ling Maywood, Elizabeth S. Synch roniz ation and maint enanc e of circa dian timin g in the mamma lian clock work Mongrain, Valérie Trans cript ional contr ol of synap tic compo nents by the clock machi nery Sehgal, Amita Molec ular and circu it mecha nisms media ting circa dian clock outpu t in the Droso phila brain Sumová, Alena Myste ry of rhyth mic signa l emerg ence withi n the supra chias matic nuclei Clocks in health and disruption Exp't Harrington, Mary E. Recur ring circa dian disru ption alter s circa dian clock sensi tivit y to reset ting Martha Merrow Strat egies to decre ase socia l jetla g: Reduc ing eveni ng blue light advan ces sleep and melat onin Skene, Debra J. Effec t of acute total sleep depri vatio n on plasm a melat onin, corti sol and metab olite rhyth ms in females Review Boivin, Diane B. Metab olic and cardi ovasc ular conse quenc es of shift work: The role of circa dian disru ption and sleep distu rbances Cirelli, Chiara Sleep and synap tic down-selec tion Duncan, Marilyn J. Inter actin g influ ences of aging and Alzhe imer's disea se on circa dian rhythms Fu, Ying-Hui The molec ular genet ics of human sleep González-Mariscal, Gabriela Behav ioral , neuro endoc rine and physi ologi cal indic ators of the circa dian biolo gy of male and femal e rabbits Lyons, Lisa C. Aging and the clock : Persp ectiv e from flies to humans McClung, Colleen A. Mood-relat ed centr al and perip heral clocks Meijer, Johanna H. From clock to funct ional pacem aker Shirasu-Hiza, Mimi Tired and stres sed: Exami ning the need for sleep Simonneaux, Valérie A Kiss to dr...

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Aging and the clock: Perspective from flies to humans

Cited by 38 publications

References 379 publications

Interacting influences of aging and Alzheimer's disease on circadian rhythms

Interacting influences of aging and Alzheimer's disease on circadian rhythms

Longitudinal sleep efficiency in the elderly and its association with health

Circadian rhythmicity and the community of clockworkers

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