Milani P, Chlasta J, Abdayem R, Kezic S, Haftek M. J Mol Recognit. 22 mai 2018;e2722.
Extrait
During formation of the stratum corneum (SC) barrier, terminally differentiated keratinocytes continue their maturation process within the dead superficial epidermal layer. Morphological studies of isolated human corneocytes have revealed differences between cornified envelopes purified from the deep and superficial SC. We used atomic force microscopy to measure the mechanical properties of native human corneocytes harvested by tape‐stripping from different SC depths. Various conditions of data acquisition have been tested and optimized, in order to obtain exploitable and reproducible results. Probing at 200 nN allowed us to investigate the total stiffness of the cells (at 50 nm indentation) and that of the cornified envelopes (at 10 to15 nm), and lipid envelopes (at 5 to 10 nm). The obtained data indicated statistically significant differences between the superficial (more rigid) and deep (softer) corneocytes, thus confirming the existence of depth and maturation‐related morphological changes within the SC. The proposed approach can be potentially used for minimally invasive evaluation of various skin conditions such as aging, skin hydration, and pathologies linked to SC.
Vous souhaitez en savoir plus ?Téléchargez notre publication scientifique en intégralité !
Découvrez nos autres publications
Stiffness measurement is a biomarker of skin aging in vivo
Runel G, Cario M, Lopez-Ramirez N, Malbouyres M, Ruggiero F, Bernard L, Puisieux A, Caramel J, Chlasta J, Masse I.
Biomechanical Properties of Cancer Cells
Gradient in cytoplasmic pressure in germline cells controls overlying epithelial cell morphogenesis
Lamiré L-A, Milani P, Runel G, Kiss A, Arias L, Vergier B, de Bossoreille S, Das P, Cluet D, Boudaoud A, Grammont M. November 30, 2020.
Gene profile of zebrafish fin regeneration offers clues to kinetics, organization and biomechanics of basement membrane
Nauroy P, Guiraud A, Chlasta J, Malbouyres M, Gillet B, Hughes S, Lambert E, Ruggiero F. Matrix Biology
Variations in basement membrane mechanics are linked to epithelial morphogenesis
Chlasta J, Milani P, Runel G, Duteyrat JL, Arias L, Lamiré LA, Boudaoud A, Grammont M. Development 2017 : doi: 10.1242/dev.152652
Stromal protein βig-h3 reprogrammes tumour microenvironment in pancreatic cancer
Goehrig D, Nigri J, Samain R, Wu Z, Cappello P, Gabiane G, Zhang X, Zhao Y, Kim IS, Chanal M, Curto R, Hervieu V, de la Fouchardière C, Novelli F, Milani P, Tomasini R, Bousquet C, Bertolino P, Hennino A.
Mechanical Shielding in Plant Nuclei
Goswami R, Asnacios A, Milani P, Graindorge S, Houlné G, Mutterer J, Hamant O, Chabouté M-E.