Sphere-forming capacity as an enrichment strategy for epithelial-like stem cells from equine skin

Abstract

Background: Mammal skin plays a pivotal role in several life preserving processes and extensive damage may therefore be life threatening. Physiological skin regeneration is achieved through ongoing somatic stem cell differentiation within the epidermis and the hair follicle. However, in severe pathological cases, such as burn wounds, chronic wounds, and ulcers, the endogenous repair mechanisms might be insuffcient. For this reason, exogenous purifcation and multiplication of epithelial-like stem/progenitor cells (EpSCs) might be useful in the treatment of these skin diseases. However, only few reports are available on the isolation, purifcation and characterization of EpSCs using suspension cultures. Methods: In the present study, skin was harvested from 6 mares and EpSCs were isolated and purifed. In addition to their characterization based on phenotypic and functional properties, sphere formation was assessed upon isolation, i.e. at passage 0 (P 0 ), and at early (P 4 ) and late (P 10 ) passages using different culture conditions. Results: On average 0.53 ± 0.28% of these primary skin-derived cells showed the capacity to form spheres and hence possessed stem cell properties. Moreover, signifcantly more spheres were observed in EpSC medium versus differentiation medium, corroborating the EpSCs' privileged ability to survive in suspension. Furthermore, the number of cells per sphere signifcantly increased over time as well as with subsequent passaging. Upon immunophenotyping, the presumed EpSCs were found to co-express cytokeratin (CK) 14, Casein kinase 2 beta and Major Histocompatibility Complex (MHC) I and expressed no pan CK and wide CK. Only a few cells expressed MHC II. Their differentiation towards keratinocytes (at P 4 and P 10 ) was confrmed based on co-expression of CK 14, Casein kinase 2 beta, pan CK and wide CK. In one of six isolates, a non-EpSC cell type was noticed in adherent culture. Although morphological features and immunohistochemistry (IHC) confrmed a keratinocyte phenotype, this culture could be purifed by seeding the cells in suspension at ultralow clonal densities (1 and 10 cells/cm 2 ), yet with a signifcantly lower sphere forming effciency in comparison to pure EpSCs (P = 0.0012). Conclusion: The present study demonstrated sphere formation as a valuable tool to purify EpSCs upon their isolation and assessed its effectiveness at different clonal seeding densities for eliminating a cellular contamination.