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Use of Light to Stop Itch Could Provide Relief From Skin Diseases

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Scientists at the European Molecular Biology Laboratory (EMBL) in Rome have used light to stop itch — at best an annoyance and at worst an uncomfortable chronic symptom — in mice. They used NIR light to activate a phototoxic agent that selectively targets itch-sensing cells, which are located in the upper surface of the skin. When the agent is injected into a mouse’s affected skin area and the area is illuminated with the NIR light, the itch-sensing cells withdraw from the skin, reducing itch-associated behaviors in the mouse and allowing the skin to heal. The researchers said that the effect of the treatment can last several months.

The light-sensitive agent binds only to those nerve cells that sense itch. Other types of nerve cells in the skin, which cause sensations like pain, vibration, cold, or heat, are not affected by the light treatment.

Stopping itch with light, EMBL Rome.
Mouse skin samples of the rare genetic skin disease amyloidosis, before light treatment (left) and after treatment (right). The arrows indicate aggregates of debris, which cause the skin to become rough and uncomfortable. Upon treatment these aggregates are reduced, allowing the skin to heal. Courtesy of Paul Heppenstall and Linda Nocchi/EMBL.

The researchers said that the method works well in mice with eczema (atopic dermatitis) and in mice with amyloidosis (familial primary localized cutaneous amyloidosis), a genetic skin disease for which there is currently no cure. “For me, the most exciting part of this project was seeing the improvements in the animals’ health,” said researcher Linda Nocchi. “Their skin looked much better after treatment and they scratched less.”

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“We hope that one day, our method will be able to help humans suffering from a disease like eczema, which causes chronic itching,” said group leader Paul Heppenstall. It is already known that mice and humans have the same target molecule for itch therapy — a small protein called interleukin 31 (IL-31). One of the team’s next steps will be to test the light therapy in human tissues.

Previously, the Heppenstall group published a method to manage chronic pain with light. “We think that the mechanism we’ve discovered might be a general method for controlling sensation through the skin. Our goal now is to take these therapies further. We want to collaborate with industry partners to develop therapies for humans, but also for veterinary medicine, as itch is a major problem in dogs as well,” Heppenstall said.

The research was published in Nature Biomedical Engineering (https://doi.org/10.1038/s41551-018-0328-5).

Itch is easily one of the most annoying sensations, and for chronic skin diseases like eczema, it’s a major symptom. Although it gives temporary relief, scratching only makes things worse because it can cause skin damage, additional inflammation, and even more itch. EMBL researchers have now found a way to stop itch with light in mice. Courtesy of EMBL.

Published: January 2019
Glossary
phototherapy
Phototherapy is a medical treatment that involves the use of light to treat various conditions, particularly those related to the skin or mood disorders. There are different types of phototherapies, each tailored to address specific conditions: UV phototherapy: This form of phototherapy utilizes ultraviolet (UV) light to treat skin conditions such as psoriasis, eczema, vitiligo, and certain types of dermatitis. UV radiation can suppress the immune system and reduce inflammation, leading to...
photobiomodulation
A light therapy that utilizes nonionizing light sources, including lasers, LEDs, and broadband light, in the visible and infrared spectrum. It is a nonthermal process involving endogenous chromophores eliciting photophysical (i.e., linear and nonlinear) and photochemical events at various biological scales. This process results in beneficial therapeutic outcomes, including but not limited to the alleviation of pain or inflammation, immunomodulation, and promotion of wound healing and tissue...
Research & TechnologyeducationEuropean Molecular Biology LaboratoryEMBLEuropeLight SourcesBiophotonicsbioengineeringmedicalmedicinephototherapyphotobiomodulationmolecular medicinelight therapylaser light therapyeczemadermatitisamyloidosisBioScan

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