Characterization of Fetal Tissue-derived Mesenchymal Stem Cells.

Mesenchymal stem cells (MSCs) have unique immunologic properties that may someday prove useful in cell-based therapy for various degenerative diseases. Its potential is limited, however, by several factors, including the rarity of these cells and difficulty in isolating them. To evaluate their potential as new sources for cell therapy, we isolated MSCs from human fetal tissue (hfMSC) derived from spontaneous abortus (8∼10 weeks) then studied their cell cycle and cell surface marker expression using a fluorescence-activated cell sorter (FACS), as well as the expression of differentiation markers using real-time polymerase chain reaction (RT-PCR). The hfMSCs were able to undergo PCR up to 20 times without displaying significant changes in morphology or expression of various stemness markers (Nanog and human telomerase reverse transcriptase [hAFP]), including germ layer markers (hNF68, alpha-cardiac actin, and hAFP). Also, teratomas were not seen in mice with severe combined immunodeficiency syndrome (SCID) that received a transplantation of hfMSCs with hTERT activity. The FACS analysis revealed that the majority of hfMSCs express mesenchymal markers CD13, CD44, CD71, CD90, CD105, CD253a, and HLA-ABC, but did not express CD31, CD34, CD38, CD45, and HLA-DR. Interestingly, hfMSCs derived from the cell membrane during early passages were negative for both HLA-ABC and HLA-DR, although HLA-ABC expression was detected during later passages (>20 passages). We found that hfMSCs could be differentiated into an osteogenic lineage; this was indicated by modulation of osteoblast markers specific for mRNA. We conclude that hfMSCs could be used as a new source of cells to treat patients with osteogenic diseases, as well as to understand the mechanisms of immunosuppression by MSCs.