The burn from chili peppers helped David Julius uncover
nerve sensors for heat. He and Ardem Patapoutian won the Nobel Prize in
physiology or medicine for work on temperature and touch receptors.
Thu Thai Thanh/EyeEm/Getty Images
By Tina Hesman Saey and Freda Kreier
5 hours ago
Updated October 4, 2021 at 2:20 pm
Some touching research took the 2021 Nobel Prize in physiology or
medicine. David Julius of the University of California, San Francisco
and Ardem Patapoutian of the Scripps Research Institute in La Jolla,
Calif., were awarded the prize October 4 for their research to identify
sensors on nerve cells that detect heat, cold and pressure.
The laureates discovered proteins called receptors that turn the
burning heat from chili peppers or a hot stove, menthol’s cooling
sensation or the pressure from a hug into nerve signals that can be sent
to the brain. Those proteins are crucial to the sense of touch and for
feeling pain.
Recognizing basic research on touch is important because “it’s such
an elemental function of the nervous system, which is how we react with
our environment,” says Walter Koroshetz, director of the U.S. National
Institute of Neurological Diseases and Stroke in Bethesda, Md.
The temperature sensors warn of danger from fire or extreme cold,
said Abdel El Manira, a neuroscientist and a member of the Nobel
Assembly of the Karolinska Institute, which awards the physiology or
medicine prize.
Touch receptors are important for feeling where our body parts are in
space. “Without them, we would not be able to stand. We would not be
able to touch or feel our surroundings,” El Manira said. “Over the last
year, we’ve been social distancing from one another. We have missed the
sense of touch, the sense of the warmth we get from one another like
during a hug.”
Despite its importance, “touch is perhaps the sense that people take
mostly for granted,” Patapoutian said during a news conference.
Scientists had been searching for touch and temperature receptors for
many years before Julius and Patapoutian began their work, Koroshetz
said. “Everybody knew [the receptors] were there, but nobody could find
them,” he says. Then the two laureates came up with some clever ways to
probe for the elusive proteins.
Julius, a biochemist and molecular physiologist and Howard Hughes
Medical Institute trustee, used capsaicin, the compound that gives chili
peppers their heat, to discover receptor proteins that allow people to
feel chili’s burn. At the time, he didn’t know that the receptor, TRPV1,
also responds to heat, he said during a news conference. That discovery
came later.
“Some of the great advances … in medicine started off with people
just following their curiosity, without knowing in advance that they
could one day be useful,” Julius said.
The protein is an ion channel, a type of molecular gate nestled in a
cell’s membrane that opens or closes to control the flow of charged
atoms or molecules into or out of the cell. In this case, when TRPV1
encounters capsaicin or heat, it opens, allowing charged calcium ions
into the cell. That flood of calcium triggers electrical signals that
are sent to the brain to warn of hot stuff.
Exactly how small changes in the protein’s shape allow it to
communicate to the brain small differences in temperature, such as
sensing when a room gets a few degrees warmer than usual, is still a
mystery that Julius hopes to solve, he said.
Julius used the winter-fresh compound menthol to uncover TRPM8, a cold-sensing receptor protein (SN: 2/13/02).
Working independently, Patapoutian, a neuroscientist and a Howard
Hughes Medical Institute investigator, simultaneously discovered that
receptor.
After spending about a year poking nerve cells in lab dishes,
Patapoutian also discovered a receptor protein, PIEZO1, that opens in
response to mechanical pressure. That protein, named after the Greek
word for pressure, and another called PIEZO2 allow people to feel touch (SN: 12/4/14).
PIEZO2 is the receptor on nerve cells in the skin called Merkel cells that sense light touches and caresses (SN: 6/18/09). It also helps nerves in the lungs keep the organs from overinflating and is important for bladder and bowel functions (SN: 12/21/16).
Children who lack PIEZO2 have balance problems and can’t feel where
their limbs are, Koroshetz says. “They have to look to see where their
fingers are when they reach out to grab something.” Abnormal pressure
sensing may contribute to glaucoma and high blood pressure, too. PIEZO1
also is involved in regulating iron levels in the blood.
Touch and temperature receptors may also be involved in processing
pain. But despite the potential for drug development, pharmaceutical
companies have struggled to develop new treatments using these channels,
says Gary Lewin, whose lab at the Max Delbrück Center for Molecular
Medicine in Berlin studies the molecular physiology of somatic
sensation.
A major stumbling block comes from the fact that drugs targeting
TRPV1, the receptor involved in sensing heat, tend to induce fever.
Other closely related receptors may be more promising, says Lewin. “Both
discoveries really boosted the field of pain research. But we’re really
at the beginning — there’s a huge amount still to be discovered.”
Treatments based on these receptors could provide an alternative to
addictive pain medication, like opioids.
Because the touch receptors are involved in so many body processes,
treatments aimed at them will need to be localized, such as with skin
patches or delivering medication directly to the affected organ,
Patapoutian said.
Julius and Patapoutian will split the prize of 10 million Swedish kronor, or more than $1.1 million.
Unlisted numbers and cell phones set on mute meant the Nobel
committee had to track down the winners through relatives. Julius
learned of the award through a sister-in-law. Patapoutian got a call
from his 94-year-old father relaying the message. “I guess even if you
have ‘do not disturb’ [on], people in your favorites can still call
you,” he said. “It ended up being a very special moment.”
Questions or comments on this article? E-mail us at feed...@sciencenews.org
This story was updated October 4, 2o21, to include comment from the new Nobel laureates.
Nobelprize.org. The Nobel Prize in physiology or medicine 2021. Published online October 4, 2021.
Tina Hesman Saey is the senior staff writer and reports on
molecular biology. She has a Ph.D. in molecular genetics from Washington
University in St. Louis and a master’s degree in science journalism
from Boston University.