Svenja Kleiser scite author profile

Skin consists of the epidermis and dermis, which are connected by a specialized basement membrane—the epidermal basement membrane. Both the epidermal basement membrane and the underlying interstitial extracellular matrix (ECM) created by dermal fibroblasts contain distinct network-forming macromolecules. These matrices play various roles in order to maintain skin homeostasis and integrity. Within this complex interplay of cells and matrices, cell surface receptors play essential roles not only for inside-out and outside-in signaling, but also for establishing mechanical and biochemical properties of skin. Already minor modulations of this multifactorial cross-talk can lead to severe and systemic diseases. In this review, major epidermal and dermal cell surface receptors will be addressed with respect to their interactions with matrix components as well as their roles in fibrotic, inflammatory or tumorigenic skin diseases.

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Pseudomonas aeruginosalectin LecB impairs keratinocyte fitness by abrogating growth factor signalling

Landi

Mari

Kleiser

et al. 2019

Life Sci. Alliance

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Pro‐inflammatory immunity supports fibrosis advancement in epidermolysis bullosa: intervention with Ang‐(1‐7)

et al. 2021

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Recessive dystrophic epidermolysis bullosa (RDEB), a genetic skin blistering disease, is a paradigmatic condition of tissue fragility‐driven multi‐organ fibrosis. Here, longitudinal analyses of the tissue proteome through the course of naturally developing disease in RDEB mice revealed that increased pro‐inflammatory immunity associates with fibrosis evolution. Mechanistically, this fibrosis is a consequence of altered extracellular matrix organization rather than that of increased abundance of major structural proteins. In a humanized system of disease progression, we targeted inflammatory cell fibroblast communication with Ang‐(1‐7)—an anti‐inflammatory heptapeptide of the renin‐angiotensin system, which reduced the fibrosis‐evoking aptitude of RDEB cells. In vivo, systemic administration of Ang‐(1‐7) efficiently attenuated progression of multi‐organ fibrosis and increased survival of RDEB mice. Collectively, our study shows that selective down‐modulation of pro‐inflammatory immunity may mitigate injury‐induced fibrosis. Furthermore, together with published data, our data highlight molecular diversity among fibrotic conditions. Both findings have direct implications for the design of therapies addressing skin fragility and fibrosis.

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Svenja Kleiser

Diversity of Mechanisms Underlying Latent TGF-β Activation in Recessive Dystrophic Epidermolysis Bullosa

Interplay between Cell-Surface Receptors and Extracellular Matrix in Skin

Pseudomonas aeruginosalectin LecB impairs keratinocyte fitness by abrogating growth factor signalling

Pro‐inflammatory immunity supports fibrosis advancement in epidermolysis bullosa: intervention with Ang‐(1‐7)

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