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A study published in PNAS has found that for people with a rare form of ichthyosis, medications previously used to treat cancer could be repurposed for treatment.
The study’s lead author, Keith Choate, MD, Ph.D., Aaron B. and Marguerite Lerner Professor and Chair of Dermatology and professor of genetics and pathology, collaborated with postdoctoral fellow Xingyuan Jiang, MD, MBBS, and MD/Ph.D. student Ryland Mortlock to evaluate patients with a previously undescribed Mendelian disorder in the progressive symmetric erythrokeratoderma spectrum. The disorder features severely thickened, red, and scaly skin at sites of wound healing or repetitive movement, including on the face, genitals, flexural areas, and the palms and soles.
The team found that a recurrent mutation arising uniquely in affected individuals but not present in parents caused the disorder. The affected gene, EMP2, encodes epithelial membrane protein 2, a cell surface tetraspan protein in the growth-arrest specific 3 (GAS3)/peripheral myelin protein 22 (PMP22) family.
EMP2 has previously been shown to directly associate with focal adhesion kinase (FAK), which links cell junction forces to signaling pathways relevant to proliferation, migration, and wound healing. Skin typically undergoes a process of differentiation where cells proliferate in the basal layer, then stop proliferating and undergo a tightly regulated process of gene expression called differentiation, which allows the skin to form a barrier to water loss, and ultimately, shed at the surface.
The team studied gene expression in affected skin using single-cell spatial transcriptomics to discover that pathways typically activated in proliferating cells in the basal layer of the skin downstream of receptor tyrosine kinases, including epidermal growth factor receptor (EGFR), did not appropriately turn off during differentiation. This provided a rationale for treatment with Tarceva (erlotinib), and EGFR inhibitors, which led to the resolution of skin disease at many sites.
“This study underscores the power of human genetics to reveal previously unknown functions for genes in the skin, setting the stage for the development of new therapeutics,” said Choate.
More information:
Xingyuan Jiang et al, A recurrent de novo damaging variant in EMP2 causes progressive symmetric erythrokeratoderma, Proceedings of the National Academy of Sciences (2025). DOI: 10.1073/pnas.2509896122
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Genetic study yields personalized therapeutics for a rare skin disorder (2025, August 26)
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