289 COOPERATIVE EXPRESSION OF PLURIPOTENCY-RELATED GENES AND NEURAL CREST MARKER GENES IN PORCINE GFP-TRANSGENIC SKIN-DERIVED PROGENITORS
M. T. Zhao A B , C. S. Isom A , J. G. Zhao A , Y. H. Hao A , J. Ross A , J. Whyte A , Y. Zhang B and R. S. Prather AA University of Missouri-Columbia, Columbia, MO, USA;
B Northwest A&F University, Yangling, Shaanxi, China
Reproduction, Fertility and Development 21(1) 241-242 https://doi.org/10.1071/RDv21n1Ab289
Published: 9 December 2008
Abstract
Recently neural crest derived multipotent progenitors from skin have attracted much attention as the skin may provide an accessible, autologous source of stem cells available with therapeutic potential (Toma JG et al. 2001 Nat. Cell Biol. 3, 778–784). The multipotent property of stem cells could be tracked back to the expression of specific marker genes that are exclusively expressed in multipotent stem cells rather than any other types of differentiated cells. Here we demonstrate the property of multipotency and neural crest origin of porcine GFP-transgenic skin derived progenitors (termed pSKP) in vitro by marker gene expression analysis. The pSKP cells were isolated from the back skin of GFP transgenic fetuses by serum-free selection culture in the presence of EGF (20 ng mL–1) and bFGF (40 ng mL–1), and developed into spheres in 1–2 weeks (Dyce PW et al. 2004 Biochem. Biophy. Res. Commun. 316, 651–658). Three groups of RT-PCR primers were used on total RNA from purified pSKP cells: pluripotency related genes (Oct4, Sox2, Nanog, Stat3), neural crest marker genes (p75NGFR, Slug, Twist, Pax3, Sox9, Sox10) and lineage specific genes (GFAP, tubulin β-III, leptin). Expression of both pluripotency related genes and neural crest marker genes were detected in undifferentiated pSKP cells. In addition, transcripts for fibronectin, vimentin and nestin (neural stem cell marker) were also present. The percentage of positive cells for Oct4, fibronection and vimentin were 12.3%, 67.9% and 53.7% respectively. Differentiation assays showed the appearance of tubulin β-III positive (39.4%) and GFAP-positive (42.6%) cells in cultures by immunocytochemistry, which share the characteristics of neurons and glial cells, respectively. Thus, we confirm the multiple lineage potentials and neural crest origin of pSKP cells in the level of marker gene expression.
This work was funded by National Institutes of Health National Center for Research Resources RR013438.
