Author:
Jover Irene,Ramos Maria C.,Escámez María José,Lozoya Estrella,Tormo José R.,de Prado-Verdún Diana,Mencía Ángeles,Pont Mercè,Puig Carles,Larraufie Marie-Helene,Gutiérrez-Caballero Cristina,Reyes Fernando,Trincado Juan Luis,García-González Vicente,Cerrato Rosario,Andrés Miriam,Crespo Maribel,Vicente Francisca,Godessart Nuria,Genilloud Olga,Larcher Fernando,Nueda Arsenio
Abstract
AbstractRecessive dystrophic epidermolysis bullosa (RDEB) is a rare genetic disease caused by loss of function mutations in the gene coding for collagen VII (C7) due to deficient or absent C7 expression. This disrupts structural and functional skin architecture, leading to blistering, chronic wounds, inflammation, important systemic symptoms affecting the mouth, gastrointestinal tract, cornea, and kidney function, and an increased skin cancer risk. RDEB patients have an extremely poor quality of life and often die at an early age. A frequent class of mutations in RDEB is premature termination codons (PTC), which appear in homozygosity or compound heterozygosity with other mutations. RDEB has no cure and current therapies are mostly palliative. Using patient-derived keratinocytes and a library of 8273 small molecules and 20,160 microbial extracts evaluated in a phenotypic screening interrogating C7 levels, we identified three active chemical series. Two of these series had PTC readthrough activity, and one upregulated C7 mRNA, showing synergistic activity when combined with the reference readthrough molecule gentamicin. These compounds represent novel potential small molecule-based systemic strategies that could complement topical-based treatments for RDEB.
Funder
Almirall, S.A.
Centro para el Desarrollo Tecnológico Industrial
Instituto de Salud Carlos III
Publisher
Springer Science and Business Media LLC