Scientists reported a significant genetic association linked to an aggressive form of melanoma in a study (“Integrated genomic analyses reveal frequent TERT aberrations in acral melanoma”) published in Genome Research. Acral lentiginous melanoma (ALM) is an uncommon type of melanoma that typically occurs on the palms and soles and is often difficult to treat.
Led by investigators at the Translational Genomics Research Institute (TGen), in collaboration with Vanderbilt University Medical Center, Memorial Sloan Kettering Cancer Center, and the Mayo Clinic, researchers identified a protein target that opens a window into the disease and may aid in diagnosis and, one day, lead to improved treatments. The researchers sequenced samples from 34 patients with ALM and found significant evidence that inhibiting a protein called TERT may be “an effective approach” to destroying ALM cells.
“These findings provide insight into the role TERT plays in the formation of ALM, and reveal preliminary evidence that inhibiting TERT has a deadly effect on ALM cancer cells,” said Jeffrey Trent, Ph.D., TGen president and research director, one of three senior authors of the study, and leader of the Stand Up To Cancer (SU2C)–Melanoma Research Alliance (MRA) Dream Team. Dr. Trent also holds a joint appointment with California-based City of Hope.
In laboratory experiments, more than 75% of ALM cancer cells were affected, following 72 hours of exposure to a drug that inhibits TERT.
“These data establish a foundation for understanding ALM's genetic triggers, with the ultimate goal to inform ALM clinical management for patients,” noted Jeffrey Sosman, M.D., a melanoma expert and another of the paper's co-senior authors. Dr. Sosman is co-leader of the translational research in solid tumors (TRIST) program and director of the melanoma program at the Robert H. Lurie Comprehensive Cancer Center of Northwestern University, and a professor at the Feinberg School of Medicine.
“Our analysis of these patients confirms a number of findings of prior smaller analyses, but also sheds new light on the molecular foundations of human acral melanoma,” added Charlotte Ariyan, M.D., Ph.D., the third co-senior author of the study. Dr. Ariyan is a surgeon specializing in melanoma at Memorial Sloan Kettering Cancer Center.
The most common type of melanoma, cutaneous melanoma (CM), which also is the most deadly type of skin cancer, has long been linked to DNA damage from excessive exposure to UV radiation, either by spending too much time in the sun or too much time in tanning beds. Breakthroughs in recent years have provided new therapies for CM linked to the BRAF gene.
But little is known about the causes of ALM, a rare cancer that strikes sun-shielded areas of the skin, such as the palms of hands, the soles of feet, and fingernail and toenail beds. ALM is more prevalent than CM among those with darker skin pigmentations.
“Mapping the relatively uncharted landscapes of melanoma in noncutaneous parts of the body will have broad relevance for understanding melanoma biology and clinical management similar to cutaneous melanoma,” said Aleksandar Sekulic, M.D., Ph.D., a skin cancer expert who holds joint appointments at TGen and the Mayo Clinic, and one of the co-authors of the study.
Genetic changes in TERT were found among 41% of the patients in this study, which also suggests that additional research should be undertaken to verify the impact of genetic aberrations on TERT activity.
“Based on our findings of TERT alterations in nearly half of the patient samples we analyzed, TERT inhibitors represent a putative therapeutic strategy in ALM,” explained Winnie Liang, Ph.D., an assistant professor and director of TGen's collaborative sequencing center, and the study's lead author.
“Continued characterization of ALM, and evaluation of the functional implications of TERT aberrations, holds promise for paving an avenue towards improving outcomes for ALM patients,” the paper concludes.
