Gene Expressions May Be Key to More Youthful Looking Skin
Some individuals’ skin appears more youthful than their chronologic age, and now new research indicates that increased expression of certain genes may be the key to intrinsically younger looking — and younger behaving — skin.
The findings appear in the Journal of the American Academy of Dermatology.
“It’s not just the genes you are born with, but which ones turn on and off over time,” explains lead author Alexa B. Kimball, MD, MPH, a dermatologist and President and CEO of Harvard Medical Faculty Physicians at Beth Israel Deaconess Medical Center, who conducted research for the study while previously at Massachusetts General Hospital. “We found a wide range of processes in the skin affected by aging, and we discovered specific gene expression patterns in women who appear younger than their chronologic age,” she says in a news release.
To produce a comprehensive model of aging skin, Kimball and her colleagues collected and integrated data at the molecular, cellular, and tissue levels from the sun-exposed skin (face and forearm) and sun-protected skin (buttocks) of 158 white women ages 20 to 74 years. As part of the study, the team looked for gene expression patterns common in women who appeared years younger than their chronologic age.
The physical appearance of facial skin was captured through digital images and analysis. Skin samples were processed for analysis and saliva samples were collected for genotyping.
The analyses revealed progressive changes from the 20s to the 70s in pathways related to oxidative stress, energy metabolism, senescence and skin barrier. These changes were accelerated in the 60s and 70s. Comparing sun-exposed and sun-protected skin samples revealed that certain genetic changes are likely due to photoaging.
The gene expression patterns from the women in the study who were younger appearing were similar to those in women who were actually younger in age. These women had increased activity in genes associated with basic biologic processes, including DNA repair, cell replication, response to oxidative stress, and protein metabolism. Women with exceptionally youthful-appearing facial skin in older age groups also had higher expression of genes associated with mitochondrial structure and metabolism, overall epidermal structure, and barrier function in their facial epidermal samples, as well as dermal matrix production.
A better understanding of the genes associated with youthful-appearing skin may point to new strategies to enhance factors that slow the skin’s aging process. This work also confirmed that ultraviolent (UV) exposure is a main driver and accelerator of skin aging.
“We were particularly surprised by the identification of a group of women who not only displayed a much more youthful skin appearance than would be expected based on their chronological age, but who also presented a specific gene expression profile mimicking the biology of much younger skin. It seems that their skin looked younger because it behaved younger,” Kimball notes. “Improving our understanding of which choices and factors led to this specific profile is likely to be of great interest across the ages.”
The research team included investigators from a variety of institutions, including Massachusetts General Hospital and Harvard Medical School, The Procter & Gamble Company, Procter & Gamble IGK, and 23andMe, Inc. This work was supported by Procter & Gamble.
Photo Credit: Beth Israel Deaconess Medical Center
Photo Caption: Alexa B. Kimball, MD, MPH, a dermatologist and President and CEO of Harvard Medical Faculty Physicians at Beth Israel Deaconess