The findings demonstrate that aspects of photoaging, the process of skin aging by chronic exposure to ultraviolet radiation, could be linked to genetic factors that accelerate the aging process when induced by the environment.
The study, published in the Journal of Investigative Dermatology, was led by BUSM co-authors Thomas M. Ruenger MD, PhD, professor and vice chair of the department of dermatology, and Hirotaka Takeuchi, MS.
Photoaging is attributed to continuous exposure to UVA and shortwave ultraviolet light (UVB) rays over a long period of time and affects skin surfaces most often exposed to sunlight, including the face, ears, hands and neck. The UVA or UVB rays can be from the sun or from synthetic sources, such as tanning beds. Progerin is a protein that has been associated with both normal and abnormal aging. In Hutchinson Gilford Progeria syndrome, a genetic disorder characterized by a vast acceleration of aging of most organs, expression and accumulation of progerin is caused by a mutation in the Lamin A gene.
In this study, skin cells were cultured and exposed to UVB or UVA rays and then examined for expression and accumulation of progerin. The results showed that progerin is induced by ultraviolet light, specifically UVA rays, and that this induction is mediated by reactive oxygen species causing alternative splicing of the LaminA gene pre-mRNA.
“This, to our knowledge, is the first time that induction of progerin is described in response to an external agent,” said Ruenger, who also is professor of pathology and laboratory medicine at BUSM and a dermatologist at Boston Medical Center. “Our results reveal a novel mechanism by which UVA rays, which are often emitted from tanning beds, may play a role in the acceleration of photoaging of the skin.”
The researchers also note that some aspects of photoaging should be regarded as a process of damage-accelerated intrinsic aging and that intrinsic and extrinsic aging are interdependent.
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