Standalone single- and bi-layered human skin 3D models supported by recombinant silk feature native spatial organization

Savvini Gkouma, Nayanika Bhalla, Solène Frapard, Alexander Jönsson, Hakan Gürbüz, Asli Aybike Dogan, Stefania Giacomello, Martin Duvfa, Patrik L. Ståhl, Mona Widhe, My Hedhammar

Research output: Contribution to journalJournal articleResearchpeer-review

Abstract

Physiologically relevant human skin models that include key skin cell types can be used forin vitrodrug testing, skin pathology studies, or clinical applications such as skin grafts. However, there is still no golden standard for such a model. We investigated the potential of a recombinant functionalized spider silk protein, FN-silk, for the construction of a dermal, an epidermal, and a bilayered skin equivalent (BSE). Specifically, two formats of FN-silk (i.e. 3D network and nanomembrane) were evaluated. The 3D network was used as an elastic ECM-like support for the dermis, and the thin, permeable nanomembrane was used as a basement membrane to support the epidermal epithelium. Immunofluorescence microscopy and spatially resolved transcriptomics analysis demonstrated the secretion of key ECM components and the formation of microvascular-like structures. Furthermore, the epidermal layer exhibited clear stratification and the formation of a cornified layer, resulting in a tight physiologic epithelial barrier. Our findings indicate that the presented FN-silk-based skin models can be proposed as physiologically relevant standalone epidermal or dermal models, as well as a combined BSE.

Original languageEnglish
Article number015015
JournalBiofabrication
Volume17
Issue number1
Number of pages15
ISSN1758-5082
DOIs
Publication statusPublished - 2024

Keywords

  • 3D in vitro model
  • Basement membrane
  • Bilayered skin model
  • Cornification
  • Recombinant silk
  • Spatial transcriptomics
  • Vascularization

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