Time-Restricted Feeding Shifts the Skin Circadian Clock and Alters UVB-Induced DNA Damage

Hong Wang; Elyse van Spyk; Qiang Liu; Mikhail Geyfman; Michael L. Salmans; Vivek Kumar; Alexander Ihler; Ning Li; Joseph S. Takahashi; Bogi Andersen

doi:10.1016/j.celrep.2017.07.022

Time-Restricted Feeding Shifts the Skin Circadian Clock and Alters UVB-Induced DNA Damage

Hong Wang, Elyse van Spyk, Qiang Liu, Mikhail Geyfman, Michael L. Salmans, Vivek Kumar, Alexander Ihler, Ning Li, Joseph S. Takahashi, Bogi Andersen

Research output: Contribution to journal › Article › peer-review

62 Scopus citations

Abstract

The epidermis is a highly regenerative barrier protecting organisms from environmental insults, including UV radiation, the main cause of skin cancer and skin aging. Here, we show that time-restricted feeding (RF) shifts the phase and alters the amplitude of the skin circadian clock and affects the expression of approximately 10% of the skin transcriptome. Furthermore, a large number of skin-expressed genes are acutely regulated by food intake. Although the circadian clock is required for daily rhythms in DNA synthesis in epidermal progenitor cells, RF-induced shifts in clock phase do not alter the phase of DNA synthesis. However, RF alters both diurnal sensitivity to UVB-induced DNA damage and expression of the key DNA repair gene, Xpa. Together, our findings indicate regulation of skin function by time of feeding and emphasize a link between circadian rhythm, food intake, and skin health.

Original language	English (US)
Pages (from-to)	1061-1072
Number of pages	12
Journal	Cell Reports
Volume	20
Issue number	5
DOIs	https://doi.org/10.1016/j.celrep.2017.07.022
State	Published - Aug 1 2017

Keywords

DNA damage
aging
cell cycle
circadian clock
metabolism
skin
time-restricted feeding

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)

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10.1016/j.celrep.2017.07.022

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title = "Time-Restricted Feeding Shifts the Skin Circadian Clock and Alters UVB-Induced DNA Damage",

abstract = "The epidermis is a highly regenerative barrier protecting organisms from environmental insults, including UV radiation, the main cause of skin cancer and skin aging. Here, we show that time-restricted feeding (RF) shifts the phase and alters the amplitude of the skin circadian clock and affects the expression of approximately 10% of the skin transcriptome. Furthermore, a large number of skin-expressed genes are acutely regulated by food intake. Although the circadian clock is required for daily rhythms in DNA synthesis in epidermal progenitor cells, RF-induced shifts in clock phase do not alter the phase of DNA synthesis. However, RF alters both diurnal sensitivity to UVB-induced DNA damage and expression of the key DNA repair gene, Xpa. Together, our findings indicate regulation of skin function by time of feeding and emphasize a link between circadian rhythm, food intake, and skin health.",

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author = "Hong Wang and {van Spyk}, Elyse and Qiang Liu and Mikhail Geyfman and Salmans, {Michael L.} and Vivek Kumar and Alexander Ihler and Ning Li and Takahashi, {Joseph S.} and Bogi Andersen",

note = "Funding Information: This study was supported by the Irving Weinstein Foundation and National Institutes of Health grant AR 56439 (to B.A.), China Scholarship Council grant 2011635103 (to H.W.), and National Science Foundation Graduate Research Fellowship DGE-1321846 (to E.V.S). J.S.T. is an Investigator at the Howard Hughes Medical Institute. Publisher Copyright: {\textcopyright} 2017 The Author(s)",

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AU - Wang, Hong

AU - van Spyk, Elyse

AU - Liu, Qiang

AU - Geyfman, Mikhail

AU - Salmans, Michael L.

AU - Kumar, Vivek

AU - Ihler, Alexander

AU - Li, Ning

AU - Takahashi, Joseph S.

AU - Andersen, Bogi

N1 - Funding Information: This study was supported by the Irving Weinstein Foundation and National Institutes of Health grant AR 56439 (to B.A.), China Scholarship Council grant 2011635103 (to H.W.), and National Science Foundation Graduate Research Fellowship DGE-1321846 (to E.V.S). J.S.T. is an Investigator at the Howard Hughes Medical Institute. Publisher Copyright: © 2017 The Author(s)

PY - 2017/8/1

Y1 - 2017/8/1

N2 - The epidermis is a highly regenerative barrier protecting organisms from environmental insults, including UV radiation, the main cause of skin cancer and skin aging. Here, we show that time-restricted feeding (RF) shifts the phase and alters the amplitude of the skin circadian clock and affects the expression of approximately 10% of the skin transcriptome. Furthermore, a large number of skin-expressed genes are acutely regulated by food intake. Although the circadian clock is required for daily rhythms in DNA synthesis in epidermal progenitor cells, RF-induced shifts in clock phase do not alter the phase of DNA synthesis. However, RF alters both diurnal sensitivity to UVB-induced DNA damage and expression of the key DNA repair gene, Xpa. Together, our findings indicate regulation of skin function by time of feeding and emphasize a link between circadian rhythm, food intake, and skin health.

AB - The epidermis is a highly regenerative barrier protecting organisms from environmental insults, including UV radiation, the main cause of skin cancer and skin aging. Here, we show that time-restricted feeding (RF) shifts the phase and alters the amplitude of the skin circadian clock and affects the expression of approximately 10% of the skin transcriptome. Furthermore, a large number of skin-expressed genes are acutely regulated by food intake. Although the circadian clock is required for daily rhythms in DNA synthesis in epidermal progenitor cells, RF-induced shifts in clock phase do not alter the phase of DNA synthesis. However, RF alters both diurnal sensitivity to UVB-induced DNA damage and expression of the key DNA repair gene, Xpa. Together, our findings indicate regulation of skin function by time of feeding and emphasize a link between circadian rhythm, food intake, and skin health.

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KW - cell cycle

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KW - metabolism

KW - skin

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Time-Restricted Feeding Shifts the Skin Circadian Clock and Alters UVB-Induced DNA Damage

Abstract

Keywords

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