: Fibrosis can be defined as an excessive and deregulated deposition of extracellular matrix proteins, causing loss of physiological architecture and dysfunction of different tissues and organs. In the skin, fibrosis represents the hallmark of several acquired (e.g. systemic sclerosis and hypertrophic scars) and inherited (i.e. dystrophic epidermolysis bullosa) diseases. A complex series of interactions among a variety of cellular types and a wide range of molecular players drive the fibrogenic process, often in a context-dependent manner. However, the pathogenetic mechanisms leading to skin fibrosis are not completely elucidated. In this scenario, an increasing body of evidence has recently disclosed the involvement of Notch signalling cascade in fibrosis of the skin and other organs. Despite its apparent simplicity, Notch represents one of the most multifaceted, strictly regulated and intricate pathways with still unknown features both in health and disease conditions. Starting from the most recent advances in Notch activation and regulation, this review focuses on the pro-fibrotic function of Notch pathway in fibroproliferative skin disorders describing molecular networks, interplay with other pro-fibrotic molecules and pathways, including the transforming growth factor-β1, and therapeutic strategies under development.

Condorelli, A.g., El Hachem, M., Zambruno, G., Nystrom, A., Candi, E., Castiglia, D. (2021). Notch-ing up knowledge on molecular mechanisms of skin fibrosis: focus on the multifaceted Notch signalling pathway. JOURNAL OF BIOMEDICAL SCIENCE, 28(1), 36 [10.1186/s12929-021-00732-8].

Notch-ing up knowledge on molecular mechanisms of skin fibrosis: focus on the multifaceted Notch signalling pathway

Candi, Eleonora;
2021-05-09

Abstract

: Fibrosis can be defined as an excessive and deregulated deposition of extracellular matrix proteins, causing loss of physiological architecture and dysfunction of different tissues and organs. In the skin, fibrosis represents the hallmark of several acquired (e.g. systemic sclerosis and hypertrophic scars) and inherited (i.e. dystrophic epidermolysis bullosa) diseases. A complex series of interactions among a variety of cellular types and a wide range of molecular players drive the fibrogenic process, often in a context-dependent manner. However, the pathogenetic mechanisms leading to skin fibrosis are not completely elucidated. In this scenario, an increasing body of evidence has recently disclosed the involvement of Notch signalling cascade in fibrosis of the skin and other organs. Despite its apparent simplicity, Notch represents one of the most multifaceted, strictly regulated and intricate pathways with still unknown features both in health and disease conditions. Starting from the most recent advances in Notch activation and regulation, this review focuses on the pro-fibrotic function of Notch pathway in fibroproliferative skin disorders describing molecular networks, interplay with other pro-fibrotic molecules and pathways, including the transforming growth factor-β1, and therapeutic strategies under development.
9-mag-2021
Pubblicato
Rilevanza internazionale
Review
Sì, ma tipo non specificato
Settore BIO/10 - BIOCHIMICA
Settore MED/42 - IGIENE GENERALE E APPLICATA
Settore BIOS-07/A - Biochimica
Settore MEDS-24/B - Igiene generale e applicata
English
Dermal fibroblasts
Epidermolysis bullosa
Extracellular matrix
Gamma-secretase inhibitor
Hypertrophic scar
JAG1
Keloid
NOTCH1
Systemic sclerosis
Transforming growth factor-β1
Cicatrix, Hypertrophic
Fibrosis
Receptors, Notch
Scleroderma, Systemic
Skin
Signal Transduction
Condorelli, A.g., El Hachem, M., Zambruno, G., Nystrom, A., Candi, E., Castiglia, D. (2021). Notch-ing up knowledge on molecular mechanisms of skin fibrosis: focus on the multifaceted Notch signalling pathway. JOURNAL OF BIOMEDICAL SCIENCE, 28(1), 36 [10.1186/s12929-021-00732-8].
Condorelli, Ag; El Hachem, M; Zambruno, G; Nystrom, A; Candi, E; Castiglia, D
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/290318
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