Sunlight damages white skin more than black skin, and shielding doesn't prevent damage

Embargoed until: Publicly released: 2021-01-15 06:00

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Image by Pierre-Laurent Durantin from Pixabay

DNA damage from sunlight is less common in black people than white people, according to US research, which also found that DNA damage still occurs even if skin is shielded from the sun. The team collected skin cells from 21 black and white people between the ages of 25 and 79, and measured the DNA damage caused by ultraviolet (UV) light from sun exposure. They found that black individuals had lower levels of UV damage than white people, and suggest that higher levels of the pigment melanin in black skin may protect DNA from damage. They say their findings could help establish the 'normal range' of DNA damage among people of different ages and races, providing a baseline for future research.

Media release

From: PLOS

Even skin shielded from the sun accumulates genomic DNA changes from UV light

Study of skin cell mutations shows Black people have less damage from UV light than white people

For the first time, scientists have measured the different types of genomic DNA changes that occur in skin cells, finding that mutations from ultraviolet (UV) light is especially common, but Black individuals have lower levels of UV damage compared to white people. Dmitry Gordenin and colleagues at the National Institute of Environmental Health Sciences, report these findings January 14 in PLOS Genetics.

The DNA in our skin cells suffer damage from sources inside and outside the body, leading to genomic changes such as mutations that may lead to cancer. UV light is the major source of these mutations, but byproducts of cellular metabolism, like free radicals, and DNA copying errors that occur during cell division also cause genomic changes. These mutation-causing mechanisms are well known, but previously, no one had been able to accurately measure the relative contributions from each source.

In their new paper, Gordenin and his colleagues quantified the amounts of each type of genomic changes by sequencing the genomes of skin cells donated from 21 Black and white individuals, ranging in age from 25 to 79. The researchers discovered that the total amount of genomic changes from metabolic byproducts accumulates as a person gets older, while the amount of genomic changes caused by UV damage is unrelated to a person’s age. Additionally, they showed that genomic changes from UV light is common, even in skin cells typically shielded from the sun, but it was less prevalent in Black donors compared to white donors.

The researchers suspect that Black individuals may be better protected from UV light due to having higher levels of the skin pigment melanin. Supporting this idea, is the fact that Black people have much lower rates of skin cancer compared to white people. Overall, the new study provides an accurate estimate of the genomic changes that occur in skin cells due to different types of DNA damage, and establishes the normal range of somatic genomic changes across a wide range of ages and of different races, providing a baseline for future research.

The authors add, “The new study provides an accurate estimate of the genomic changes that occur in skin cells due to different types of DNA damage, and establishes the normal range of somatic genomic changes across a wide range of ages and of different races, providing a baseline for future research.”

Journal/
conference: PLOS Genetics

Research:Paper

Organisation/s: National Institute of Environmental Health Sciences, USA

Funder: This work was supported by the US National Institute of Health Intramural Research Program Project Z1AES103266 to D.A.G. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

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