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Evolusi
manusia, perubahan kulit
In human evolution, changes in skin's barrier set northern Europeans
apart
Date:
June 30,
2014
Source:
University of California, San
Francisco (UCSF)
Summary:
The popular idea that northern Europeans developed
light skin to absorb more UV light so they could make more vitamin D -- vital
for healthy bones and immune function -- is questioned by researchers in a new
study. Ramping up the skin’s capacity to capture UV light to make vitamin D is
indeed important, however, researchers concluded in their study that changes in
the skin’s function as a barrier to the elements made a greater contribution
than alterations in skin pigment in the ability of northern Europeans to make
vitamin D.
......................
The popular idea that Northern Europeans developed light
skin to absorb more UV light so they could make more vitamin D – vital for
healthy bones and immune function – is questioned by UC San Francisco
researchers in a new study published online in the journal Evolutionary
Biology.
Ramping up
the skin’s capacity to capture UV light to make vitamin D is indeed important,
according to a team led by Peter Elias, MD, a UCSF professor of dermatology.
However, Elias and colleagues concluded in their study that changes in the
skin’s function as a barrier to the elements made a greater contribution than
alterations in skin pigment in the ability of Northern Europeans to make
vitamin D.
Elias’ team
concluded that genetic mutations compromising the skin’s ability to serve as a
barrier allowed fair-skinned Northern Europeans to populate latitudes where too
little ultraviolet B (UVB) light for vitamin D production penetrates the
atmosphere.
Among
scientists studying human evolution, it has been almost universally assumed
that the need to make more vitamin D at Northern latitudes drove genetic
mutations that reduce production of the pigment melanin, the main determinant
of skin tone, according to Elias.
“At the
higher latitudes of Great Britain, Scandinavia and the Baltic States, as well
as Northern Germany and France, very little UVB light reaches the Earth, and
it’s the key wavelength required by the skin for vitamin D generation,” Elias
said.
“While is
seems logical that the loss of the pigment melanin would serve as a compensatory
mechanism, allowing for more irradiation of the skin surface and therefore more
vitamin D production, this hypothesis is flawed for many reasons,” he
continued. “For example, recent studies show that dark-skinned humans make
vitamin D after sun exposure as efficiently as lightly-pigmented humans, and
osteoporosis – which can be a sign of vitamin D deficiency – is less common,
rather than more common, in darkly-pigmented humans.”
Furthermore,
evidence for a south to north gradient in the prevalence of melanin mutations
is weaker than for this alternative explanation explored by Elias and
colleagues.
In earlier
research, Elias began studying the role of skin as a barrier to water loss. He
recently has focused on a specific skin-barrier protein called filaggrin, which
is broken down into a molecule called urocanic acid – the most potent absorber
of UVB light in the skin, according to Elias. “It’s certainly more important
than melanin in lightly-pigmented skin,” he said.
In their new
study, the researchers identified a strikingly higher prevalence of inborn
mutations in the filaggrin gene among Northern European populations. Up to 10
percent of normal individuals carried mutations in the filaggrin gene in these
northern nations, in contrast to much lower mutation rates in southern
European, Asian and African populations.
Moreover,
higher filaggrin mutation rates, which result in a loss of urocanic acid,
correlated with higher vitamin D levels in the blood. Latitude-dependent
variations in melanin genes are not similarly associated with vitamin D levels,
according to Elias. This evidence suggests that changes in the skin barrier
played a role in Northern European’s evolutionary adaptation to Northern
latitudes, the study concluded.
Yet, there
was an evolutionary tradeoff for these barrier-weakening filaggrin mutations,
Elias said. Mutation bearers have a tendency for very dry skin, and are
vulnerable to atopic dermatitis, asthma and food allergies. But these diseases
have appeared only recently, and did not become a problem until humans began to
live in densely populated urban environments, Elias said.
The Elias
lab has shown that pigmented skin provides a better skin barrier, which he says
was critically important for protection against dehydration and infections
among ancestral humans living in sub-Saharan Africa. But the need for pigment
to provide this extra protection waned as modern human populations migrated
northward over the past 60,000 years or so, Elias said, while the need to
absorb UVB light became greater, particularly for those humans who migrated to
the far North behind retreating glaciers less than 10,000 years ago.
The data
from the new study do not explain why Northern Europeans lost melanin. If the
need to make more vitamin D did not drive pigment loss, what did? Elias
speculates that, “Once human populations migrated northward, away from the
tropical onslaught of UVB, pigment was gradually lost in service of metabolic
conservation. The body will not waste precious energy and proteins to make
proteins that it no longer needs.”
For the Evolutionary
Biology study, labeled a “synthesis paper” by the journal, Elias and
co-author Jacob P. Thyssen, MD, a professor at the University of Copenhagen,
mapped the mutation data and measured the correlations with blood levels of
vitamin D. Labs throughout the world identified the mutations. Daniel Bikle,
MD, PhD, a UCSF professor of medicine, provided expertise on vitamin D
metabolism.
Story
Source:
The above
story is based on materials provided by University of California, San Francisco (UCSF). The original article was written
by Jeffrey Norris. Note: Materials may be edited for content and length.
Journal
Reference:
- Jacob P. Thyssen, Daniel D. Bikle, Peter M. Elias. Evidence That Loss-of-Function Filaggrin Gene Mutations Evolved in Northern Europeans to Favor Intracutaneous Vitamin D3 Production. Evolutionary Biology, 2014; DOI: 10.1007/s11692-014-9282-7
