Pharmaceutics (Jun 2022)

Structural and Functional Validation of a Full-Thickness Self-Assembled Skin Equivalent for Disease Modeling

  • Bo Ram Mok,
  • Su-Ji Shon,
  • A Ram Kim,
  • Carolyne Simard-Bisson,
  • Israël Martel,
  • Lucie Germain,
  • Dong Hyun Kim,
  • Jung U Shin

DOI
https://doi.org/10.3390/pharmaceutics14061211
Journal volume & issue
Vol. 14, no. 6
p. 1211

Abstract

Read online

Recently, various types of in vitro-reconstructed 3D skin models have been developed for drug testing and disease modeling. Herein, we structurally and functionally validated a self-assembled reconstructed skin equivalent (RSE) and developed an IL-17a-induced in vitro psoriasis-like model using a self-assembled RSE. The tissue engineering approach was used to construct the self-assembled RSE. The dermal layer was generated using fibroblasts secreting their own ECM, and the epidermal layer was reconstructed by seeding keratinocytes on the dermal layer. To generate the psoriatic model, IL-17A was added to the culture medium during the air–liquid interface culture period. Self-assembled RSE resulted in a fully differentiated epidermal layer, a well-established basement membrane, and dermal collagen deposition. In addition, self-assembled RSE was tested for 20 reference chemicals according to the Performance Standard of OECD TG439 and showed overall sensitivity, specificity, and accuracy of 100%, 90%, and 95%, respectively. The IL-17a-treated psoriatic RSE model exhibited psoriatic epidermal characteristics, such as epidermal hyperproliferation, parakeratosis, and increased expression of KRT6, KRT17, hBD2, and S100A9. Thus, our results suggest that a self-assembled RSE that structurally and functionally mimics the human skin has a great potential for testing various drugs or cosmetic ingredients and modeling inflammatory skin diseases.

Keywords