TY - JOUR
T1 - HMCN1 variants aggravate epidermolysis bullosa simplex phenotype
AU - Bergson, Shir
AU - Sarig, Ofer
AU - Giladi, Moshe
AU - Mohamad, Janan
AU - Mogezel-Salem, Mariana
AU - Smorodinsky-Atias, Karina
AU - Sade, Ofir
AU - Manori, Bar
AU - Assaf, Sari
AU - Malovitski, Kiril
AU - Feller, Yarden
AU - Pavlovsky, Mor
AU - Hainzl, Stefan
AU - Kocher, Thomas
AU - Hummel, Julia I.
AU - Eretz Kdosha, Noy
AU - Khair, Lubna Gazi
AU - Zauner, Roland
AU - Pinon Hofbauer, Josefina
AU - Shalom-Feuerstein, Ruby
AU - Wally, Verena
AU - Koller, Ulrich
AU - Samuelov, Liat
AU - Haitin, Yoni
AU - Ashery, Uri
AU - Rubinstein, Rotem
AU - Sprecher, Eli
N1 - Publisher Copyright:
© 2025 Bergson et al.
PY - 2025/5/5
Y1 - 2025/5/5
N2 - Epidermolysis bullosa simplex (EBS) refers to a heterogeneous group of inherited skin disorders characterized by blister formation within the basal cell layer. The disease is characterized by marked variations in phenotype severity, suggesting co-inheritance of genetic modifiers. We identified three deleterious variants in HMCN1 that co-segregated with a more severe phenotype in a group of 20 individuals with EBS caused by mutations in KRT14, encoding keratin 14 (K14). HMCN1 codes for hemicentin-1. Protein modeling, molecular dynamics simulations, and functional experiments showed that all three HMCN1 variants disrupt protein stability. Hemicentin-1 was found to be expressed in human skin above the BMZ. Using yeast-2-hybrid, co-immunoprecipitation, and proximity ligation assays, we found that hemicentin-1 binds K14. Three-dimensional skin equivalents grown from hemicentin-1-deficient cells were found to spontaneously develop subepidermal blisters, and HMCN1 downregulation was found to reduce keratin intermediate filament formation. In conclusion, hemicentin-1 binds K14 and contributes to BMZ stability, which explains the fact that deleterious HMCN1 variants co-segregate with a more severe phenotype in KRT14-associated EBS.
AB - Epidermolysis bullosa simplex (EBS) refers to a heterogeneous group of inherited skin disorders characterized by blister formation within the basal cell layer. The disease is characterized by marked variations in phenotype severity, suggesting co-inheritance of genetic modifiers. We identified three deleterious variants in HMCN1 that co-segregated with a more severe phenotype in a group of 20 individuals with EBS caused by mutations in KRT14, encoding keratin 14 (K14). HMCN1 codes for hemicentin-1. Protein modeling, molecular dynamics simulations, and functional experiments showed that all three HMCN1 variants disrupt protein stability. Hemicentin-1 was found to be expressed in human skin above the BMZ. Using yeast-2-hybrid, co-immunoprecipitation, and proximity ligation assays, we found that hemicentin-1 binds K14. Three-dimensional skin equivalents grown from hemicentin-1-deficient cells were found to spontaneously develop subepidermal blisters, and HMCN1 downregulation was found to reduce keratin intermediate filament formation. In conclusion, hemicentin-1 binds K14 and contributes to BMZ stability, which explains the fact that deleterious HMCN1 variants co-segregate with a more severe phenotype in KRT14-associated EBS.
UR - http://www.scopus.com/inward/record.url?scp=85219133580&partnerID=8YFLogxK
U2 - 10.1084/jem.20240827
DO - 10.1084/jem.20240827
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C2 - 39976600
AN - SCOPUS:85219133580
SN - 0022-1007
VL - 222
JO - Journal of Experimental Medicine
JF - Journal of Experimental Medicine
IS - 5
ER -