Chronic circadian misalignment results in reduced longevity and large-scale changes in gene expression in Drosophila

Chronic circadian misalignment results in reduced longevity and large-scale changes in gene expression in Drosophila

Circadian clocks are found in nearly all organisms, from bacteria to mammals, and ensure that behavioral and physiological processes occur at optimal times of day and in the correct temporal order. It is becoming increasingly clear that chronic circadian misalignment (CCM), such as occurs in shift w...

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Bibliographic Details
Published in:BMC genomics Vol. 20; no. 1; p. 14
Main Authors: Boomgarden, Alex C, Sagewalker, Gabriel D, Shah, Aashaka C, Haider, Sarah D, Patel, Pramathini, Wheeler, Heather E, Dubowy, Christine M, Cavanaugh, Daniel J
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 07-01-2019
BioMed Central
BMC
Subjects:
Aging
Aging (natural)
Bacteria
Bioinformatics
Biological clocks
Biosynthesis
Circadian misalignment
Circadian rhythm
Circadian rhythms
Cognitive ability
Drosophila
Fatty acids
Fruit flies
Fruit flies (Tephritidae)
Gene expression
Gene regulation
Gene sequencing
Genes
Genetic aspects
Genomics
Health
Insects
Life span
Lipid metabolism
Lipids
Locomotor activity
Longevity
Metabolism
Misalignment
Molecular modelling
Monitoring
Occupational health
Oxidative stress
Patient monitoring equipment
Physiological aspects
Physiology
Reduction
Ribonucleic acid
RNA
RNA-sequencing
Schedules
Sleep
Temporal variations
Toxic substances
Transcription
Transcription (Genetics)
Workers
United States
RNA-sequencing
Longevity
Circadian misalignment
Drosophila
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Summary:Circadian clocks are found in nearly all organisms, from bacteria to mammals, and ensure that behavioral and physiological processes occur at optimal times of day and in the correct temporal order. It is becoming increasingly clear that chronic circadian misalignment (CCM), such as occurs in shift workers or as a result of aberrant sleeping and eating schedules common to modern society, has profound metabolic and cognitive consequences, but the proximate mechanisms connecting CCM with reduced organismal health are unknown. Furthermore, it has been difficult to disentangle whether the health effects are directly induced by misalignment or are secondary to the alterations in sleep and activity levels that commonly occur with CCM. Here, we investigated the consequences of CCM in the powerful model system of the fruit fly, Drosophila melanogaster. We subjected flies to daily 4-h phase delays in the light-dark schedule and used the Drosophila Activity Monitoring (DAM) system to continuously track locomotor activity and sleep while simultaneously monitoring fly lifespan. Consistent with previous results, we find that exposing flies to CCM leads to a ~ 15% reduction in median lifespan in both male and female flies. Importantly, we demonstrate that the reduced longevity occurs independent of changes in overall sleep or activity. To uncover potential molecular mechanisms of CCM-induced reduction in lifespan, we conducted whole body RNA-sequencing to assess differences in gene transcription between control and misaligned flies. CCM caused progressive, large-scale changes in gene expression characterized by upregulation of genes involved in response to toxic substances, aging and oxidative stress, and downregulation of genes involved in regulation of development and differentiation, gene expression and biosynthesis. Many of these gene expression changes mimic those that occur during natural aging, consistent with the idea that CCM results in premature organismal decline, however, we found that genes involved in lipid metabolism are overrepresented among those that are differentially regulated by CCM and aging. This category of genes is also among the earliest to exhibit CCM-induced changes in expression, thus highlighting altered lipid metabolism as a potentially important mediator of the negative health consequences of CCM.
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ISSN:1471-2164
1471-2164
DOI:10.1186/s12864-018-5401-7