O13 Benchmarking a human pluripotent stem cell-derived hair-bearing skin organoid model to prenatal skin

Abstract

Abstract Introduction and aims Molecular regulation of mammalian skin development has been largely derived from murine studies. The lack of human studies stems primarily from the difficulties in prenatal human skin access. There is an important need to study human prenatal skin owing to the notable differences between human and mouse skin and the paucity of mechanistic understanding of congenital skin disorders. Methods We assembled the first comprehensive multiomic reference atlas of prenatal human skin (21 samples from 7 to 16 postconception weeks), combining single-cell (235 201 cells) and spatial transcriptomic data. We followed 84 skin organoids (SkOs) using single-cell analysis over a 5-month culture period and characterized the spatial organization of the skin in mature SkOs. Prenatal skin, SkO and any relevant pre-existing single-cell RNA-Seq datasets were integrated into the analysis. Cell–cell interactions and cell-lineage determination were explored using CellPhoneDB and trajectory inferences. We evaluated the differentiation trajectory alignment between prenatal skin and SkO using the Genes2Genes analysis. Results Our findings reveal predicted factors regulating the epithelial–mesenchymal crosstalk during human hair follicle formation; progressive expression of scar-promoting genes in later gestation, potentially contributing to scarless healing properties of human prenatal skin observed during the early stages of gestation and expression of genes causing genetic skin disorders in the same cell types in prenatal human skin and SkO. We also found that SkOs morphologically recapitulate human skin development from early (periderm formation and shedding) to late (cornification and hair follicle formation) stages. We also demonstrated that SkO and prenatal skin mesenchyme differentiation into hair follicle dermal condensate and dermal papilla is highly conserved at the cellular and molecular level. Conclusions SkOs faithfully recapitulate human prenatal skin development and are a valuable model for mechanistic studies on skin development including hair follicle biology and congenital skin disorders.