Doctors have long urged people with red hair, fair skin and freckles to avoid the sun and its damaging ultraviolet rays. To venture outdoors without
a wide-brimmed hat and sunscreen was simply courting skin cancer, they cautioned.
A study suggests redheads are at higher risk of melanoma even if they avoid the sun. (American Cancer Society)
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Now, however, a study in mice suggests that those among us with ginger
hair and fair complexions face an elevated risk of the disease even when
covered up. The study, published online Wednesday in the journal Nature,
suggests that the same reddish-yellow pigment that gives rise to rusty locks
and an inability to tan is itself a potential trigger in the development of
melanoma, the deadliest form of skin cancer.
The findings appear to solve the riddle of why darker-skinned
individuals have a significantly lower risk of melanoma than lighter-skinned
people, even when the sun protection factor, or SPF, of dark skin is just two
to four levels higher than that of light skin. It could also explain why
red-haired individuals are more susceptible to melanoma than anyone else, even
blonds. "Even if you're good about avoiding UV rays— you know, putting on sunscreen, wearing protective clothes and being
careful at the beach — it's still possible this red pigment is related to
carcinogenic activity anyway," said Dr. David E. Fisher, director of the
melanoma program at Massachusetts general Hospital in Charlestown and senior author of the study.
Melanoma is a from of cancer that begins in the skin's pigment-producing
cells, or melanocytes, and is often associated with fair skin, excessive
exposure to sunlight and tanning lamps, or a preponderance of moles. The National Cancer Institute estimates that more than 76,000 people will be
diagnosed with melanoma in 2012 and that more than 9,000 will die from it.
The color of human skin, hair and eyes is dictated by two types of melanin pigment: pheomelanin, which is reddish-yellow, and eumelanin, which is
brownish-black. Both are produced in the upper layers of the skin, and people
with a greater proportion of brown-black pigment will have a darker complexion
than people who have a greater percentage of the red-yellow pigment.
Initially, Fisher and colleagues set out to examine how moles can
develop into melanoma when exposed to ultraviolet light, a form of radiation
that can damage DNA. The test subjects were mice bred to be susceptible to cancer. Because mouse
hair is also determined by eumelanin and pheomelanin, researchers used black,
albino and golden-yellow — or "red-headed" — mice to mimic a range of
human pigmentation.
Yet even before researchers got a chance to expose the mice to UV rays,
50% of the redheads developed melanoma within a year. Their black and albino
counterparts, however, developed melanoma at low rates and over a longer
period. "We were very surprised," Fisher said. "In fact, one of
the first things we did was go back into the animal room with a UV meter just
to be sure that for some inexplicable reason the lights were not actually
emitting ultraviolet radiation."
Study authors surmised that since UV radiation could not have caused the
cancer, the pheomelanin pigment itself was causing a damaging chemical reaction
inside the animals' skin cells. This damage, called oxidative stress, occurs
when cells produce an altered type of oxygen molecule as waste.
Normally, cells can protect against these waste molecules, but an
overabundance can damage the cell and its DNA, possibly laying the
foundation for cancer.
When researchers compared skin samples of the different mice, the
redheaded mice showed almost three times as much damage due to oxidative
stress, leading authors to conclude that pheomelanin was the culprit. Conversely,
the brown-black pigment, eumelanin, possibly acted as an antioxidant in the
black-haired mice and counteracted the red pigment's damaging behavior. The
albino mice lacked either type of functioning pigment.
The idea that pheomelanin might play a role in melanoma was advanced a
number of years ago by epidemiologists. However, it was only recently that
chemists were able to isolate each pigment and examine them individually for
such an experiment, according to Dr. Meenhard Herlyn, a microbiologist and dermatology professor at Philadelphia's Wistar Institute. "To show this in these
animals is very, very convincing," said Herlyn, who was not involved in
the study but wrote a review that accompanied it. "This will be a landmark
study on the importance of this pigment."
He also echoed the study authors' belief that instead of exonerating UV
rays in the development of melanoma, radiation probably made the situation
worse. "The big danger here is that somebody will say, 'Oh, well if I
can't do anything about it, then I can go to a suntanning salon and go tanning
on the beach and just call it fate.' That's not the case," Herlyn said.
"One still has to be very conscientious about not getting a sunburn and getting the damage."
The consensus among evolutionary biologists is that humans evolved fair
skin as they migrated from the tropics to high northern latitudes, where light
was less abundant in winter. By having more pheomelanin pigment than eumelanin,
fairer-skinned humans were better able to synthesize vitamin D, a process
that's activated by sunlight and is crucial to bone formation. This function is
so important, especially in children, that the trait survived in the gene pool
despite the increased cancer risk that comes with it.
Fisher said the study offers a silver lining for redheads: As
researchers gain a better understanding of pheomelanin, they'll be likely to
identify specific antioxidants that could arrest harmful cellular processes.
Someday, he said, those antioxidants might be added to sunscreens. But he
discouraged people from experimenting with antioxidants on their own, since certain
combinations can inflict greater oxidative stress.
Source: LA Times
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