When skin is wounded, the hair cannot regrow. In a recent
study, researchers ask why this is and whether it can be reversed. They
conclude that a signaling pathway called the sonic hedgehog may be critical.
Though it may seem simple, hair
regrowth is complex and mysterious.
Hair loss comes in many forms. It can be a gradual,
gene-driven loss known as male- or female-pattern baldness.
Alternately, it may result from an injury, such as a burn or
deep wound.
However the hair has been lost, regrowing it is a technical
challenge that has defied researchers since the dawn of science.
In ancient Egypt, for instance, there was a range of unusual
regrowth techniques, including rubbing hippopotamus fat into the scalp.
Although science has moved on, it is still only inching toward
a solution to hair loss.
The latest study to investigate regrowth was headed by cell
biologist Mayumi Ito, Ph.D., an associate professor at the New York University
Langone Health center in New York City.
Her team's findings were published this week in the
journal Nature Communications.
Finding a new target
The scientists wanted to look for changes in the signaling
pathways of damaged skin.
In particular, they were interested in the signaling of
fibroblasts, cells that synthesize collagen — a structural protein that supports the shape
of hair and skin. Fibroblasts also play an important role in wound healing.
The researchers honed in on the so-called sonic hedgehog
signaling pathway, which cells use to communicate. The pathway is active as we
develop in the womb, but its activity diminishes significantly after birth.
The sonic hedgehog signaling pathway is vital in the
development of fingers and toes and also in the organization of the brain.
Here, it is worth noting that every hair follicle we have as
adults developed in the womb; after birth, no new follicles generate. This
helps explain why new tissue, such as scar tissue, cannot grow hair.
In their experiments, the researchers kick-started sonic
hedgehog signaling in the injured skin of mice.
As expected, within 4 weeks of sustaining the injury, hair
regrowth was visible. Within 9 weeks, the hair's root and shaft structures
appeared.
"Our
results show that stimulating fibroblasts through the sonic hedgehog pathway
can trigger hair growth not previously seen in wound healing."
Mayumi Ito, Ph.D.
Rejuvenating damaged skin
Essentially, the researchers transformed old, damaged skin
back into embryonic skin.
Ito hopes that the findings will be useful for individuals
who wish to regrow hair on injuries, as well as for anyone experiencing
age-related hair loss.
Earlier studies showed that switching on the sonic hedgehog
pathway could trigger tumor growth. To avoid
this, the scientists only turned on the pathway for the fibroblasts positioned
just below the skin.
The team's findings add a new dimension to our
understanding. Previously, the medical community believed that hair could not
regrow after an injury primarily because of the buildup of scar tissue and
collagen.
As Ito explains, "Now we know
that it's a signaling issue in cells that are very active as we develop in the
womb, but less so in mature skin cells as we age."
Next, Ito will focus on chemicals that may activate sonic
hedgehog signaling. Ultimately, she aims to find drugs that can reverse hair
loss — the Holy Grail of hair research.
Although the findings mark another relatively small step
toward reversing hair loss, they provide an intriguing new angle from which to
view the processes involved.
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