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PUBLIC RELEASE DATE:
23-Jul-2012

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Contact: Lisa Anderson
lisama2@gwu.edu
202-994-3121
George Washington University
@GWtweets

New findings by GW researcher break tanning misconceptions: 'There is no such thing as a safe tan'

Nature Communications recently published GW research on skin melanoma with newly discovered role for UV and melanin using transgenic HGF melanoma mouse model

WASHINGTON (July 23, 2012) - A new study conducted by GW School of Medicine and Health Sciences (SMHS) researchers Edward C. De Fabo, Ph.D., Frances P. Noonan, Ph.D., and Anastas Popratiloff, M.D., Ph.D., has been published in the journal Nature Communications. Their paper, entitled "Melanoma induction by ultraviolet A but not ultraviolet B radiation requires melanin pigment," was published in June 2012.

"This is the first time that UV-induced melanin formation (tanning), traditionally thought to protect against skin cancer, is shown to be directly involved in melanoma formation in mammals," said De Fabo, who is professor emeritus at SMHS. "Skin melanoma is the most lethal of the skin cancers. Our study shows that we were able to discover this new role for melanin by cleanly separating UVA from UVB and exposing our experimental melanoma animal model with these separated wavebands using our unique UV light system designed and set up at GW. Dermatologists have been warning for years there is no such thing as a safe tan and this new data appears to confirm this."

Their research uses a mammalian model to investigate melanoma formed in response to precise spectrally defined ultraviolet wavelengths and biologically relevant doses. They show that melanoma induction by ultraviolet A (320 nm) requires the presence of melanin pigment and is associated with oxidative DNA damage within melanocytes. In contrast, ultraviolet B radiation (280 nm) initiates melanoma in a pigment-independent manner associated with direct ultraviolet B DNA damage. The researchers identified two ultraviolet wavelength-dependent pathways for the induction of CMM and the study describes an unexpected and significant role for melanin within the melanocyte in melanoma genesis.

"Also new is our discovery that UV induction of melanin, as a melanoma-causing agent, works when skin is exposed only to UVA and not UVB radiation. This is especially important since melanoma formation has been correlated with sunbed use as many epidemiological studies have shown. One possible reason for this is that tanning lamps are capable of emitting UVA radiation up to 12 times, or higher, the UVA intensity of sunlight at high noon. Melanin plus UVA is known to cause photo-oxidation, a suspected, but still to be proved, mechanism for the formation of melanoma as we describe in our study," De Fabo said.

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This grant was supported in part by grants from the National Cancer Institute (NCI) and the Melanoma Research Foundation. The melanoma mouse was developed in collaboration with G. Merlino, Ph.D, of NCI.

To view a full copy of the study, please visit the following link: http://www.nature.com/ncomms/journal/v3/n6/full/ncomms1893.html. To arrange an interview with Dr. De Fabo, please contact Lisa Anderson at lisama2@gwu.edu or 202-994-3121 or Anne Banner at abanner@gwu.edu or 202-994-2261.

About the School of Medicine and Health Sciences

Founded in 1825, the GW School of Medicine and Health Sciences (SMHS) was the first medical school in the nation's capital and is the 11th oldest in the country. Working together in our nation's capital, with integrity and resolve, the GW SMHS is committed to improving the health and well-being of our local, national and global communities. www.smhs.gwumc.edu

About Nature Communications

Nature Communications is an online-only, multidisciplinary journal dedicated to publishing high-quality research in all areas of the biological, physical, and chemical sciences. Papers published by the journal represent important advances of significance to specialists within each field. www.nature.com/ncomms/



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