Development of a serum‐free system to expand dental‐derived stem cells: PDLSCs and SHEDs

Recently, extracted teeth have been identified as a viable source of stem cells for tissue regenerative approaches. Current expansion of these cells requires incorporation of animal sera; yet, a fundamental issue underlying cell cultivation methods for cell therapy regards concerns in using animal sera. In this study, we investigated the development of a chemically defined, serum‐free media (K‐M) for the expansion of human periodontal ligament stem cells (PDLSCs) and human stem cells from exfoliated deciduous teeth (SHEDs). Proliferation assays were performed comparing cells in serum‐containing media (FBS‐M) with cells cultured in four different serum‐free medium and these demonstrated that in these medium, the cell proliferation of both cell types was significantly less than the proliferation of cells in FBS‐M. Additional proliferation assays were performed using pre‐coated fibronectin (FN) tissue culture plates and of the four serum‐free medium, only K‐M enabled PDLSCs and SHEDs to proliferate at higher rates than cells cultured in FBS‐M. Next, alkaline phosphatase activity showed that PDLSCs and SHEDs exhibited similar osteogenic potential whether cultured in K‐M or FBS‐M, and, additionally, cells retained their multipotency in K‐M as seen by expression of chondrogenic and adipogenic genes, and positive Von Kossa, Alcian blue, and Oil Red O staining. Finally, differential expression of 84 stem cell associated genes revealed that for most genes, PDLSCs and SHEDs did not differ in their expression regardless of whether cultured in K‐M or FBS‐M. Taken together, the data suggest that K‐M can support the expansion of PDLSCs and SHEDs and maintenance of their multipotency. J. Cell. Physiol. 226: 66–73, 2010. © 2010 Wiley‐Liss, Inc.