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Int J Cosmet Sci. 2019 Dec;41(6):558-562. doi: 10.1111/ics.12572.

Blue light disrupts the circadian rhythm and create damage in skin cells.

Author information

1
Estee Lauder Research Laboratories, 125 Pinelawn Road, Melville, NY, 11747, USA.
2
Environmental Medicine, New York University School of Medicine, 341 East 25th Street, New York,, NY, 10010, USA.
3
Materials Science & Engineering, Stony Brook University, 100 Nicolls Road, Stony Brook,, NY, 11794, USA.

Abstract

in English, French

On a daily basis, the skin is exposed to many environmental stressors and insults. Over a 24-h natural cycle, during the day, the skin is focused on protection; while at night, the skin is focused on repairing damage that occurred during daytime and getting ready for the next morning. Circadian rhythm provides the precise timing mechanism for engaging those different pathways necessary to keep a healthy skin through clock genes that are present in all skin cells. The strongest clue for determining cellular functions timing is through sensing light or absence of light (darkness). Here, we asked the question if blue light could be a direct entrainment signal to skin cells and also disrupt their circadian rhythm at night. Through a reporter assay for per1 transcription, we demonstrate that blue light at 410 nm decreases per1 transcription in keratinocytes, showing that epidermal skin cells can sense light directly and control their own clock gene expression. This triggers cells to "think" it is daytime even at nighttime. Elsewhere, we measured different skin cell damage because of blue light exposure (at different doses and times of exposure) vs. cells that were kept in full darkness. We show an increase in ROS production, DNA damage and inflammatory mediators. These deleterious effects can potentially increase overall skin damage over time and ultimately accelerates ageing.

KEYWORDS:

PER1; blue light; cell culture; circadian rhythm; genetic analysis; skin physiology/structure

PMID:
31418890
DOI:
10.1111/ics.12572

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