Hypoxia mediated isolation and expansion enhances the chondrogenic capacity of bone marrow mesenchymal stromal cells

Using the in vitro colony assay, clonogenic fibroblast precursor cells (CFU-F) were detected in the bone marrow, spleen and thymus from adult mice. The survival curve for CFU-F of mouse bone marrow irradiated in vitro has a D0 of 220 r. Regeneration of bone marrow CFU-F after whole-body irradiation with 150 r is characterized by a marked secondary loss and post-irradiation lag and dip, lasting 6 days, followed by return to normal values by about the 25th day. This pattern of post-radiation recovery of CFU-F is similar to that of the CFU-s. In addition, during the first 6 hours following irradiation the number of CFU-F increased approximately twofold.

In the adult human, mesenchymal stem cells (MSCs) resident in bone marrow retain the capacity to proliferate and differentiate along multiple connective tissue lineages, including cartilage. In this study, culture-expanded human MSCs (hMSCs) of 60 human donors were induced to express the morphology and gene products of chondrocytes. Chondrogenesis was induced by culturing hMSCs in micromass pellets in the presence of a defined medium that included 100 nM dexamethasone and 10 ng/ml transforming growth factor-beta(3) (TGF-beta(3)). Within 14 days, cells secreted an extracellular matrix incorporating type II collagen, aggrecan, and anionic proteoglycans. hMSCs could be further differentiated to the hypertrophic state by the addition of 50 nM thyroxine, the withdrawal of TGF-beta(3), and the reduction of dexamethasone concentration to 1 nM. Increased understanding of the induction of chondrogenic differentiation should lead to further progress in defining the mechanisms responsible for the generation of cartilaginous tissues, their maintenance, and their regeneration.