David Julius ’77 shares the Nobel Prize in physiology or medicine
MIT alumnus and one other honored for their discoveries of how the nervous system senses temperature and touch.
David Julius, a 1977 graduate of MIT, will share the 2021 Nobel Prize in physiology or medicine, the Royal Swedish Academy of Sciences announced this morning in Stockholm.
Julius, a professor at the University of California at San Francisco, shares the prize with Ardem Patapoutian, a professor at the Scripps Research Institute, for their discoveries in how the body senses touch and temperature.
Both scientists helped to answer a fundamental question regarding how the nervous system interprets our environment: How are temperature and mechanical stimuli converted into electrical impulses in the nervous system?
Using capsaicin, a compound that gives chili peppers their distinctive burning sensation, Julius was able to identify a receptor in the nerve endings of skin that responds to heat. His experiments revealed that this receptor, which he called TRPV1, is an ion channel that is activated by painful heat.
“David Julius’ discovery of TRPV1 was the breakthrough that allowed us to understand how differences in temperature can induce electrical signals in the nervous system,” according to today’s announcement by the Nobel committee.
Later, Julius and Patapoutian independently discovered a receptor called TRPM8, which responds to cold. Patapoutian was also honored for his discovery of receptors that respond to mechanical force in the skin and other organs. Their work on how the body senses temperature and mechanical stimuli is now being harnessed to develop treatments for a variety of diseases, including chronic pain.
Julius, who was born in New York, earned his bachelor’s degree in biology from MIT in 1977. He received a PhD in 1984 from University of California at Berkeley and was a postdoc at Columbia University before joining the faculty of the University of California at San Francisco in 1989.
He is the 39th MIT graduate to win a Nobel Prize.Reprinted with permission of MIT News