INTRODUCTION: The skin is constantly exposed and responds to a wide range of biomechanical cues. The mechanobiology of skin has already been known and applied by clinicians long before the fundamental molecular mechanisms of mechanotransduction are elucidated. MATERIALS AND METHODS: Despite increasing knowledge on the mediators of biomechanical signaling such as mitogen-associated protein kinases, Rho GTPases or FAK-ERK pathways, the key elements of mechano-responses transcription factors, and mechano-sensors remain unclear. Recently, canonical biochemical components of Hippo and Wnt signaling pathway YAP and β-catenin were found to exhibit undefined mechanical sensitivity. Mechanical forces were identified to be the dominant regulators of YAP/TAZ activity in a multicellular context. Furthermore, different voltage or ligand sensitive ion channels in the cell membrane exhibited their mechanical sensitivity as mechano-sensors. Additionally, a large number of microRNAs have been confirmed to regulate cellular behavior and contribute to various skin disorders under mechanical stimuli. Mechanosensitive (MS) microRNAs could not only be activated by distinct mechanical force pattern, but also responsively target MS sensors such as e-cadherin and cytoskeleton constituent RhoA. CONCLUSION: Thus, a comprehensive understanding of this regulatory network of cutaneous mechanotransduction will facilitate the development of novel approaches to wound healing, hypertrophic scar formation, skin regeneration, and the progression or initiation of skin diseases.
INTRODUCTION: The skin is constantly exposed and responds to a wide range of biomechanical cues. The mechanobiology of skin has already been known and applied by clinicians long before the fundamental molecular mechanisms of mechanotransduction are elucidated. MATERIALS AND METHODS: Despite increasing knowledge on the mediators of biomechanical signaling such as mitogen-associated protein kinases, Rho GTPases or FAK-ERK pathways, the key elements of mechano-responses transcription factors, and mechano-sensors remain unclear. Recently, canonical biochemical components of Hippo and Wnt signaling pathway YAP and β-catenin were found to exhibit undefined mechanical sensitivity. Mechanical forces were identified to be the dominant regulators of YAP/TAZ activity in a multicellular context. Furthermore, different voltage or ligand sensitive ion channels in the cell membrane exhibited their mechanical sensitivity as mechano-sensors. Additionally, a large number of microRNAs have been confirmed to regulate cellular behavior and contribute to various skin disorders under mechanical stimuli. Mechanosensitive (MS) microRNAs could not only be activated by distinct mechanical force pattern, but also responsively target MS sensors such as e-cadherin and cytoskeleton constituent RhoA. CONCLUSION: Thus, a comprehensive understanding of this regulatory network of cutaneous mechanotransduction will facilitate the development of novel approaches to wound healing, hypertrophic scar formation, skin regeneration, and the progression or initiation of skin diseases.
Authors: Katharina L Kopp; Ulrik Ralfkiaer; Lise Mette R Gjerdrum; Rikke Helvad; Ida H Pedersen; Thomas Litman; Lars Jønson; Peter H Hagedorn; Thorbjørn Krejsgaard; Robert Gniadecki; Charlotte M Bonefeld; Lone Skov; Carsten Geisler; Mariusz A Wasik; Elisabeth Ralfkiaer; Niels Ødum; Anders Woetmann Journal: Cell Cycle Date: 2013-05-15 Impact factor: 4.534
Authors: Lina S Malakou; Antonios N Gargalionis; Christina Piperi; Evangelia Papadavid; Athanasios G Papavassiliou; Efthimia K Basdra Journal: Ann Transl Med Date: 2018-06
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Authors: Karan Chopra; Bryan Buckingham; Jamil Matthews; Jennifer Sabino; Kashyap K Tadisina; Ronald P Silverman; Nelson H Goldberg; Sheri Slezak; Devinder P Singh Journal: Int Wound J Date: 2016-08-15 Impact factor: 3.315
Authors: Marylens Hernandez; Julia Patzig; Sonia R Mayoral; Kevin D Costa; Jonah R Chan; Patrizia Casaccia Journal: J Neurosci Date: 2016-01-20 Impact factor: 6.167