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The NIH Catalyst: A Publication About NIH Intramural Research

National Institutes of Health • Office of the Director | Volume 30 Issue 2 • March–April 2022

Itching for Answers

NIDCR Scientists Search for the Molecules That Make Us Itch

BY CATHERINE EVANS, NIDCR

Why do we itch? Most of us are familiar with the nagging, squirm-inducing sensation, whether from a scratchy sweater, a bug bite, or sunburn. Usually, itch is a fleeting annoyance. But in some conditions, such as psoriasis or during healing of severe wounds, itch can become unrelenting and diminish quality of life. Existing treatments for chronic itch are not always effective. Recent research by scientists, in the National Institute of Dental and Craniofacial Research (NIDCR), working in different labs with differing expertise, may help explain why. Their findings indicate that not all itch is created equal. Distinct combinations of molecules appear to underlie different types of itch, and treatments tailored to specific kinds of itch may offer more effective relief than a one-size-fits-all approach.

When the skin’s protective barrier is disturbed—by injury, an insect bite, or even lack of moisture from dry winter air—the immune system springs into action, mounting a defense against potential invaders and helping to heal the area. Part of this process involves the release of small proteins called cytokines, which help immune cells communicate with each other. Some of these cytokines activate itch-sensing nerve fibers in the skin. The resulting signal is relayed to the brain, where it is perceived as the sensation of itch. But scientists haven’t fully understood the exact molecules and mechanisms involved.

Scientists in a lab looking at computer screen.

CREDIT: NIDCR

Scientists in Wanjun Chen’s lab found that the interleukin-31 cytokine elicits itch during wound healing. Shown (from left): Chen discussing projects with former fellows Brittany Abbatiello (postbac) and Eric Tu (postdoc).

Scientists in the lab of NIDCR Senior Investigator and immunologist Wanjun Chen recently set out to determine how itch arises during wound healing. For most of us, itch is a temporary symptom that emerges as a scratch or scrape heals. But for large or severe wounds, including burns, itching can be agonizing and persistent.

Chen and then-postdoc Junji Xu found high amounts of a cytokine called interleukin-31 (IL-31) in skin wound tissue from mice at the peak of itch responses. In addition, wound-induced itching was eliminated in genetically engineered mice that lacked IL-31. Further experiments showed that IL-31 is released by immune cells called dendritic cells, which rush to sites of skin damage to defend against pathogens. The results pointed to an important role for IL-31 in wound-induced itching.

Although they had pinpointed the likely immune mechanisms, Chen’s team needed to understand the other side of the equation—how that activity translates into the itchy feeling perceived by the brain.

“We knew the immunological part very well, but we’re not experts in the neural mechanisms,” said Chen. So his group turned to their NIDCR colleague Mark Hoon, a senior investigator and neuroscientist who’s an expert in neurons that detect itch and pain.

With help from Hoon’s lab, the scientists found that IL-31 elicits itching by stimulating itch-sensing nerves that relay signals from the wound site toward the brain. (Immunity 53:371–383.e5, 2020; DOI:10.1016/j.immuni.2020.06.023)

Mark Hoon

CREDIT: NIDCR

NIDCR Senior Investigator Mark Hoon is an expert in neurons that detect itch and pain.

“There’s value in venturing beyond our particular areas of expertise, because the molecular activities that occur in the skin don’t recognize the borderline between immunology and neuroscience,” said Hoon. “There’s so much at the intersection of the fields that’s really important to understand.”

Further research will be needed to determine whether the IL-31 findings apply to humans. “Ultimately, the goal is to develop a therapy,” said Chen. “But IL-31 may not be the only cytokine driving itch during wound healing—there may be others too.”

Recent research from Hoon’s group appears to align with this idea. “There’s only a certain set of cytokines that are likely to be important for itch, and different combinations of cytokines may drive different itch-related conditions,” he said.

Hoon’s team looked at cytokines present in skin samples from people with chronic itch–related conditions such as psoriasis. For most, a cytokine called oncostatin M (OSM) predominated.

The researchers found that OSM enhanced the activity of itch-detecting neurons in a lab dish, and that injecting it into the skin of mice intensified scratching behaviors. In a mouse model of psoriasis-induced chronic itch, scratching was almost entirely eliminated by giving a drug that blocks OSM from interacting with itch neurons, pointing to OSM’s importance in driving chronic itch. (Sci Transl Med 13:eabe3037, 2021; DOI:10.1126/scitranslmed.abe3037)

“Small-molecule drugs that block OSM’s activity could be promising therapies for chronic itch,” Hoon said.

But not every patient may benefit from an OSM-blocking therapy. “On average, across all the patients we studied, there was very high production of OSM—but not in every individual,” said Hoon. Instead, some skin samples had high concentrations of IL-31, the cytokine Chen’s team found to be linked to wound itching. Further experiments by Hoon’s group showed that IL-31’s effects on itch neurons were similar to OSM’s.

“A number of cytokines could produce these effects,” Hoon said. “Ideally, if you want to treat a person most effectively, you would try to determine which molecules are elevated in their skin and target them specifically.”

With that goal in mind, the Hoon and Chen labs plan to continue identifying itch-related compounds and defining their roles, with the aim of painting a more complete picture of itch in its many forms.

“That’s the idea of personalized medicine—treating based on what’s actually happening in each patient,” said Hoon.


Catherine Evans

Catherine Evans, a science writer in the National Institute of Dental and Craniofacial Research’s Science Communication and Digital Outreach Branch, has been at NIH since 2017. Outside of work she enjoys traveling, hiking, camping, and crossword puzzles.

This page was last updated on Tuesday, May 17, 2022

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