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Stem Cells ; 35(11): 2280-2291, 2017 11.
Article in English | MEDLINE | ID: mdl-28833807

ABSTRACT

Multipotent mesenchymal stem cells (MSCs) have enormous potential in tissue engineering and regenerative medicine. However, until now, their development for clinical use has been severely limited as they are a mixed population of cells with varying capacities for lineage differentiation and tissue formation. Here, we identify receptor tyrosine kinase-like orphan receptor 2 (ROR2) as a cell surface marker expressed by those MSCs with an enhanced capacity for cartilage formation. We generated clonal human MSC populations with varying capacities for chondrogenesis. ROR2 was identified through screening for upregulated genes in the most chondrogenic clones. When isolated from uncloned populations, ROR2+ve MSCs were significantly more chondrogenic than either ROR2-ve or unfractionated MSCs. In a sheep cartilage-repair model, they produced significantly more defect filling with no loss of cartilage quality compared with controls. ROR2+ve MSCs/perivascular cells were present in developing human cartilage, adult bone marrow, and adipose tissue. Their frequency in bone marrow was significantly lower in patients with osteoarthritis (OA) than in controls. However, after isolation of these cells and their initial expansion in vitro, there was greater ROR2 expression in the population derived from OA patients compared with controls. Furthermore, osteoarthritis-derived MSCs were better able to form cartilage than MSCs from control patients in a tissue engineering assay. We conclude that MSCs expressing high levels of ROR2 provide a defined population capable of predictably enhanced cartilage production. Stem Cells 2017;35:2280-2291.


Subject(s)
Chondrogenesis/genetics , Mesenchymal Stem Cells/metabolism , Receptor Tyrosine Kinase-like Orphan Receptors/genetics , Wnt-5a Protein/genetics , Animals , Cell Differentiation , Cell Proliferation , Cells, Cultured , Humans , Receptor Tyrosine Kinase-like Orphan Receptors/metabolism , Sheep , Tissue Engineering , Wnt-5a Protein/metabolism
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