Abstract
The phenotypic presentation of monogenetic diseases is determined not only by the nature of the causative mutations but also is influenced by manifold cellular, microenvironmental, and external factors. Here, heritable extracellular matrix diseases, including dystrophic epidermolysis bullosa (DEB), are no exceptions. Dystrophic epidermolysis bullosa is caused by mutations in the COL7A1 gene encoding collagen VII. Deficiency of collagen VII leads to skin and mucosal fragility, which progresses from skin blistering to severe fibrosis and cancer. Clinical and pre-clinical studies suggest that targeting of secondary disease mechanisms or employment of natural disease modifiers can alleviate DEB severity and progression. However, since many of these mechanisms are needed for tissue homeostasis, informed, selective targeting is essential for safe and efficacious treatment. Here, we discuss a selection of key disease modifiers and modifying processes active in DEB, summarize the still scattered knowledge of them, and reflect on ways forward toward their utilization for symptom-relief or enhancement of curative therapies.
Highlights
Epidermolysis bullosa (EB) comprises a group of genetic disorders manifested by mechanically induced blistering and fragility of the skin and other stratified epithelia
Depending on the level of separation in the skin, EB is divided into four main types: Epidermolysis bullosa simplex with blistering occurring in the epidermal basal keratinocyte layer, junctional EB with blistering within the lamina lucida of the epidermal basement membrane, dystrophic EB (DEB) with blistering below the epidermal basement membrane, and Kindler EB with blistering occurring in all layers (Bardhan et al, 2020)
This mini-review will focus on DEB, which can be inherited in a dominant or a recessive (RDEB) manner (Bardhan et al, 2020)
Summary
Epidermolysis bullosa (EB) comprises a group of genetic disorders manifested by mechanically induced blistering and fragility of the skin and other stratified epithelia. Depending on the level of separation in the skin, EB is divided into four main types: Epidermolysis bullosa simplex with blistering occurring in the epidermal basal keratinocyte layer, junctional EB with blistering within the lamina lucida of the epidermal basement membrane, dystrophic EB (DEB) with blistering below the epidermal basement membrane, and Kindler EB with blistering occurring in all layers (Bardhan et al, 2020). This mini-review will focus on DEB, which can be inherited in a dominant or a recessive (RDEB) manner (Bardhan et al, 2020). Dystrophic epidermolysis bullosa is primarily caused by genetic loss of function or abundance of collagen VII, encoded by the COL7A1 gene (Has et al, 2018), but a number of secondary, molecular and cellular, events modify the disease phenotype
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