Scratching Out New Clues on the Sources of Certain Itch Sensations

A new study led by School of Biological Sciences researchers could eventually help patients who suffer from skin conditions that affect the palms of hands and soles of feet.


Renay San Miguel
Communications Officer II/Science Writer
College of Sciences 

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Summary Sentence:

A new study led by School of Biological Sciences researchers could eventually help patients who suffer from skin conditions that affect the palms of hands and soles of feet.

Full Summary:

Itch sensations that strike glabrous skin — like that found on the palms of the hands or soles of the feet — can be the source of lasting discomfort for many people. But a new study from School of Biological Sciences researchers may bring eventual relief, thanks to findings that may narrow down the unique glabrous skin receptors that respond to those itches.

  • (Photo by Ian Dooley via Unsplash) (Photo by Ian Dooley via Unsplash)
  • Liang Han Liang Han
  • Haley Steele Haley Steele

Getting an itch is one thing. Everybody has to scratch every now and then, and some of us have to watch out for dry skin during the winter, or allergic reactions to ingredients in certain makeup or lotions. Yet for most of us, those discomforts involve itches on parts of our skin that have hair, not on what is called ‘glabrous’ skin: the smoother, tougher skin that’s found on the palms of your hands and the soles of your feet.

And those glabrous skin conditions often cause chronic itching and pain. In the U.S., there are an estimated 200,000 cases of dyshidrosis, a skin condition causing itchy blisters to develop only on the palm and soles, each year. Another chronic skin condition, palmoplantar pustulosis (a type of psoriasis which causes inflamed, scaly skin and intense itch on the palms and soles) affects an estimated 330,0000 to 1,650,000 people in the U.S. each year.

“Those patients with chronic itch suffer a lot. They don’t have a significant treatment, and it affects their lives,” says Liang Han, an assistant professor in the School of Biological Sciences who also researches in the Parker H. Petit Institute for Bioengineering and Bioscience. Now, new research from Han and students in her Han Lab at Georgia Tech may offer a balm of hope for these patients. 

"MrgprC11+ sensory neurons mediate glabrous skin itch,” published in the science journal PNAS (Proceedings of the National Academy of Sciences of the United States of America), is co-authored by Han alongside current and former graduate students Haley R. Steele (first author), Yanyan XingYuyan ZhuHenry B. HilleyKaty LawsonYeseul Nho, and Taylor Niehoff.

Han and her students uncovered new information about which sensory neurons are responsible for glabrous skin itch. “We here present evidence demonstrating that distinct neuronal populations are responsible for mediating hairy and glabrous skin itch,” the authors write. “This study advanced our understanding of itch and will have significant impact on the clinical treatment of itch.”

Steele adds more: “Our research is showing, for the first time, the actual neurons that send itch are different populations. Neurons that are in hairy skin that do not sense itch in glabrous skins are one population, and another senses itch in glabrous skins.”

Of transgenic mice and sensory neurons

Steele, a current graduate student in the School of Biological Sciences who dual-majored in Biology and Literature, Media, Communications, is in her fifth year at Georgia Tech. In the new study, she highlights another reason why glabrous skin itches are significant sources of pain for patients. “That’s actually one of the most debilitating places (to get an itch),” Steels says. “If your hands are itchy, it’s hard to grasp things, and if it’s your feet, it can be hard to walk. If there’s an itch on your arm, you can still type. You’ll be distracted, but you’ll be okay. But if it’s your hands and feet, it’s harder to do everyday things.”

Why has an explanation so far eluded science? “I think one reason is because most of the people in the field kind of assumed it was the same mechanism that’s controlling the sensation. It’s technically challenging. It’s more difficult than working on hairy skin,” Han says.

She and her team got around the technical challenge by relying on a new investigative procedure, or assay, that Steele had been working on to judge behavior in research mice. The previous method would have involved injecting itch-causing chemicals into mice skin, but the majority of a mouse’s skin is covered with hair. The team had to focus on the smooth glabrous skin on tiny mice hands and feet. 

Using transgenic (genetically modified) mice also helped track down the proper sensory neurons responsible for glabrous skin itches. “What we can do is specifically activate a particular set of neurons that causes itch, and we saw that biting behavior again modeled,” referring to how mice usually deal with itchy skin.

A particular set of mice in the study was given a chemical to specifically kill an entire line of neurons. “We can see what would happen if they didn’t have those neurons we’re targeting,” Steele adds. 

Han, Steele and their team focused on three previously known pruriceptive (related to itch sensation) neurons in glabrous skin.

The result, as highlighted in the research study: “Our results show that MrgprA3+ and MrgprDneurons, although key mediators for hairy skin itch, do not play important roles in glabrous skin itch, demonstrating a mechanistic difference in itch sensation between hairy and glabrous skin. We found that MrgprC11+ neurons are the major mediators for glabrous skin itch. Activation of MrgprC11+ neurons induced glabrous skin itch, while ablation (removal) of MrgprC11+ neurons reduced both acute and chronic glabrous skin itch.”

Applications could involve figuring out a way for patients to turn off those itch-inducing neurons. “Blocking the neuron is one approach, but that’s down the road. That is something that we always hope,” Han says. “It is very reasonable to propose — to find a way to block those neurons in human skin.”


The researcher team thanks the animal care and welfare team at Georgia Institute of Technology for their care and services. This work was supported by grants from the U.S. National Institutes of Health (NS087088 and HL141269), and the Pfizer Aspire Dermatology Award to Liang Han.

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College of Sciences, School of Biological Sciences

Biotechnology, Health, Bioengineering, Genetics
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Bioengineering and Bioscience
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College of Sciences, School of Biological Sciences, Liang Han, Haley Steele, glabrous skin, itch, neurons, itch receptors, go-PetitInstitute
  • Created By: Renay San Miguel
  • Workflow Status: Published
  • Created On: Mar 18, 2021 - 3:41pm
  • Last Updated: Apr 13, 2021 - 11:05am