âSunscreenâ gene may help protect against skin cancer
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A new USC-led study identified a “sunscreen” gene that may help stave off skin cancer.
The researchers found that the “UV radiation Resistance Associated Gene” is a tumor suppressor for skin cancer, which is the most common form of cancer in the United States. Melanoma is the deadliest skin cancer. In fact, melanoma rates have doubled over the last three decades, according to the Centers for Disease Control and Prevention.
“If we understand how this UV-resistant gene functions and the processes by which cells repair themselves after ultraviolet damage, then we could find targets for drugs to revert a misguided mechanism back to normal conditions,” said Chengyu Liang, the study’s senior author and an associate professor of molecular microbiology and immunology at the Keck School of Medicine of USC.
The study was published in Molecular Cell on May 19 — in time for Melanoma and Skin Cancer Awareness Month. More than 90 percent of melanoma skin cancers develop because of cell damage from exposure to UV radiation. Melanoma kills about 10,130 people annually, according to the American Cancer Society.
“People who have the mutated UV-resistant gene or low levels of the UV-resistant gene may be at higher risk of melanoma or other skin cancers, especially if they go sunbathing or tanning frequently,” Liang said. “Our study suggests that the UV-resistant gene may serve as a biomarker for skin cancer prevention.”
A shot in the cell
The researchers used data from 340 melanoma patients who participated in The Cancer Genome Atlas. The study also included two experimental groups with either reduced levels of the UV-resistant gene or a mutant copy of that gene in melanoma cells and 50 fly eyes. The control groups were melanoma cells or fly eyes with normal copies of the UV-resistant gene.
The scientists gave a UV shot to cells carrying the normal UV-resistant gene and cells carrying defective copies of it. After 24 hours, cells carrying normal versions of the gene had repaired more than 50 percent of the UV-induced damage. In contrast, the defective samples repaired less than 20 percent of the damaged cells.
“That means when people sunbathe or go tanning, those who have the normal UV-resistant gene can repair most UV-induced DNA burns in a timely manner, whereas those with the defective UV-resistant gene will have more damage left unrepaired,” Liang said. “After daily accumulation, if they sunbathe or go tanning often, these people will have increased risk for developing skin cancers such as melanoma.”
The researchers were able to show a correlation with increased cancer risk. Their study did not definitively say diminished levels or mutant copies of the UV-resistant gene were causes for skin cancer development.
Why the UV-resistant gene matters
Scientists first discovered the UV-resistant gene nearly two decades ago in relation to a disease called Xeroderma Pigmentosum, which makes people extremely sensitive to sunlight and puts them at high risk for developing skin cancer. Scientists did not examine the function of the UV-resistant gene in people who are healthy or who have skin cancer.
The USC-led team has now identified what the UV-resistant gene does and how it operates in a general population, said Yongfei Yang, lead author and a research associate at Keck Medicine of USC.
“The UV-resistant gene is a tumor suppressor involved in the UV-repair process of a cell’s DNA and is essential for preventing UV-induced genomic instability,” Yang said. “When the UV-resistant gene is lost, the cell cannot efficiently repair UV- and chemical-induced damage.”
The UV-resistant gene is involved in the multistep DNA cell-repair process, researchers found. First a known protein scans for damaged DNA. Once it finds lesions, it tags the UV-resistant gene into action. The UV-resistant gene is like a humanitarian convoy dropping off reinforcements or aid to help damaged areas repair at precisely the right time.
The researchers did not have data from people without skin cancer, so they were unable to compare their observations of melanoma patients with those of skin cancer-free people.
“We found the expression level of the UV-resistant gene is related to melanoma patients’ survival and metastasis stages,” Yang said. “Lower levels of the UV-resistant gene means a lower survival rate and advanced metastases stages.”
The UV-resistant gene brings hope
UV exposure, frequent trips to the tanning salon and genetics all play a role in developing skin cancer. Studies have shown, for example, that redheads are more prone to skin cancer because of their genetic background. Liang, Yang and their colleagues have identified a new player in the skin cancer field.
“To our knowledge, the UV-resistant gene does not have any enzymic activity; It’s a supporter or coordinator,” Liang said. “Although it may not be the direct doer, without it, the whole structure collapses.”
Future studies will use mouse models to better understand how the UV-resistant gene functions.
“The UV-resistant gene may serve as a good target for drug development,” Yang said. “Perhaps one day a drug could stimulate the repairing functionality of the UV-resistant gene to ensure swift and effective repair of UV-damaged skin cells. That would be a good treatment for people who are at high risk of developing skin cancer.”
Scientists at Children’s Hospital Los Angeles, the Korea Advanced Institute of Science and Technology and the Chinese Academy of Sciences in Beijing also contributed to the study. The Margaret Early Trustee Foundation, American Cancer Society, National Institutes of Health grants and GRL Program from the National Research Foundation of Korea funded the research.
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