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. 2024 Sep 18;191(4):568-579.
doi: 10.1093/bjd/ljae225.

Histone deacetylase inhibition mitigates fibrosis-driven disease progression in recessive dystrophic epidermolysis bullosa

Alessia Primerano  1 Emanuela De Domenico  1 Francesca Cianfarani  1 Naomi De Luca  1 Giovanna Floriddia  1 Massimo Teson  1 Cristina Cristofoletti  2 Silvia Cardarelli  3 Giovanni Luca Scaglione  1 Enke Baldini  3 Davide Cangelosi  4 Paolo Uva  4 Jonathan Fernando Reinoso Sánchez  1 Carole Roubaty  5 Jörn Dengjel  5 Alexander Nyström  6 Simona Mastroeni  7 Salvatore Ulisse  3 Daniele Castiglia  1 Teresa Odorisio  1
Affiliations

Histone deacetylase inhibition mitigates fibrosis-driven disease progression in recessive dystrophic epidermolysis bullosa

Alessia Primerano et al. Br J Dermatol. .

Abstract

Background: Recessive dystrophic epidermolysis bullosa (RDEB) is a blistering disease caused by mutations in the gene encoding type VII collagen (C7). RDEB is associated with fibrosis, which is responsible for severe complications. The phenotypic variability observed in siblings with RDEB suggests that epigenetic modifications contribute to disease severity. Identifying epigenetic changes may help to uncover molecular mechanisms underlying RDEB pathogenesis and new therapeutic targets.

Objectives: To investigate histone acetylation in RDEB skin and to explore histone deacetylase inhibitors (HDACi) as therapeutic molecules capable of counteracting fibrosis and disease progression in RDEB mice.

Methods: Acetylated histone levels were detected in human skin by immunofluorescence and in RDEB fibroblasts by enzyme-linked immunosorbent assay (ELISA). The effects of givinostat and valproic acid (VPA) on RDEB fibroblast fibrotic behaviour were assessed by a collagen-gel contraction assay, Western blot and immunocytofluorescence for α-smooth muscle actin, and ELISA for released transforming growth factor (TGF)-β1. RNA sequencing was performed in HDACi- and vehicle-treated RDEB fibroblasts. VPA was systemically administered to RDEB mice and effects on overt phenotype were monitored. Fibrosis was investigated in the skin using histological and immunofluorescence analyses. Eye and tongue defects were examined microscopically. Mass spectrometry proteomics was performed on skin protein extracts from VPA-treated RDEB and control mice.

Results: Histone acetylation decreases in RDEB skin and primary fibroblasts. RDEB fibroblasts treated with HDACi lowered fibrotic traits, including contractility, TGF-β1 release and proliferation. VPA administration to RDEB mice mitigated severe manifestations affecting the eyes and paws. These effects were associated with fibrosis inhibition. Proteomic analysis of mouse skin revealed that VPA almost normalized protein sets involved in protein synthesis and immune response, processes linked to the increased susceptibility to cancer and bacterial infections seen in people with RDEB.

Conclusions: Dysregulated histone acetylation contributes to RDEB pathogenesis by facilitating the progression of fibrosis. Repurposing of HDACi could be considered for disease-modifying treatments in RDEB.

Plain language summary

Recessive dystrophic epidermolysis bullosa (or ‘RDEB’) is a rare skin disease that affects fewer than 5,000 people in the USA. A similar number of people in Europe are affected. RDEB is caused by mutations in the gene that controls the production of a protein called ‘type VII collagen’ (or ‘C7’). A shortage of C7 causes fragile skin that blisters. In severe forms of RDEB, wounds heal slowly and can even affect a person’s life expectancy. Differences in the disease are common in people (even identical twins) with RDEB who have similar levels of C7. This suggests that how severe the disease is could be affected by molecular processes that control other genes. Understanding these processes may help us to find treatments for RDEB. This study was done in Italy, in collaboration with centres in Germany and Switzerland. We wanted to see whether a chemical modification called ‘histone acetylation’ (which influences gene activity) is different in RDEB and whether it can be targeted by a specific treatment. We found that histone acetylation is reduced in RDEB skin and in skin cells grown in the lab called ‘fibroblasts’. When we increased histone acetylation in fibroblasts with two drugs called givinostat and valproic acid, the amount of scar tissue produced decreased. This is important because scar tissue can lead to severe symptoms. We carried out more experiments to study the effects of givinostat and valproic acid in mice with RDEB. We found that valproic acid reduces the severity of RDEB by decreasing the disease’s harmful effects and reducing the amount of scar tissue. Our findings suggest that abnormal histone acetylation contributes to the scar tissue seen in RDEB. Our study shows that valproic acid could be useful in treating the scarring seen in RDEB and in reducing the effects of the disease. As this drug is used to treat other diseases, there could be potential for rapid repurposing of it for RDEB.

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Conflict of interest statement

Conflicts of interest The authors declare no conflicts of interest.

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