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Merck

Modulation of Piezo1 influences human skin architecture and oxytocin expression.

International journal of cosmetic science (2023-05-12)
Florian Labarrade, Armelle Perrin, Yolène Ferreira, Jean-Marie Botto, Isabelle Imbert
RESUMEN

Throughout our existence, the skin senses and analyses the mechanical forces imposed by the environment. In response to these environmental forces, skin can deform itself and achieve a biological response. The subsequent cutaneous plasticity emerges from mechanical properties arising from the collective action of the skin cells, particularly keratinocytes, that govern the tensile strength via cell-to-cell adhesions and via cell-matrix adhesion structures. In addition to serving as force-bearing entities, keratinocytes respond to forces by activating signalling pathways to control their own fate and function. To detect and adapt to mechanical signals, keratinocytes possess a panel of sensory receptors and junctional intercellular structures. Mechanically activated ion channel Piezo1 has been described as a force sensor and as being involved in pleasant touch perception. In this study, relationships between Piezo1 modulation and oxytocin synthesis were investigated. The expression of Piezo1 in the skin was studied and compared with the expression of TRPV1. Dooku1 antagonist and Jedi1 agonist were used to modulate Piezo1. The level of E-cadherin and oxytocin was monitored in ex vivo skin biopsies by immunodetection. Taken together, our results illustrate the major role of mechanosensitive ion channel Piezo1 in skin barrier integrity, and in peripheral oxytocin synthesis in the skin. In conclusion, this study highlights the relationships between pleasant touch, soft touch and local oxytocin synthesis.

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Sigma-Aldrich
Anticuerpo anti-oxitocina, clon 4G11, ascites fluid, clone 4G11, Chemicon®
Sigma-Aldrich
Dooku1, ≥98% (HPLC)
Sigma-Aldrich
Monoclonal Anti-TRPV1 antibody produced in mouse, clone 1F5, purified immunoglobulin, buffered aqueous solution