Marco N. Helder scite author profile

Earlier, we have shown that the increased cartilage production in pellet co-cultures of chondrocytes and bone marrow-derived mesenchymal stem cells (BM-MSCs) is due to a trophic role of the MSC in stimulating chondrocyte proliferation and matrix production rather than MSCs actively undergoing chondrogenic differentiation. These studies were performed in a culture medium that was not compatible with the chondrogenic differentiation of MSCs. In this study, we tested whether the trophic role of the MSCs is dependent on culturing co-culture pellets in a medium that is compatible with the chondrogenic differentiation of MSCs. In addition, we investigated whether the trophic role of the MSCs is dependent on their origins or is a more general characteristic of MSCs. Human BM-MSCs and bovine primary chondrocytes were co-cultured in a medium that was compatible with the chondrogenic differentiation of MSCs. Enhanced matrix production was confirmed by glycosaminoglycans (GAG) quantification. A species-specific quantitative polymerase chain reaction demonstrated that the cartilage matrix was mainly of bovine origin, indicative of a lack of the chondrogenic differentiation of MSCs. In addition, pellet co-cultures were overgrown by bovine cells over time. To test the influence of origin on MSCs' trophic effects, the MSCs isolated from adipose tissue and the synovial membrane were co-cultured with human primary chondrocytes, and their activity was compared with BM-MSCs, which served as control. GAG quantification again confirmed increased cartilage matrix production, irrespective of the source of the MSCs. EdU staining combined with cell tracking revealed an increased proliferation of chondrocytes in each condition. Irrespective of the MSC source, a short tandem repeat analysis of genomic DNA showed a decrease in MSCs in the co-culture over time. Our results clearly demonstrate that in co-culture pellets, the MSCs stimulate cartilage formation due to a trophic effect on the chondrocytes rather than differentiating into chondrocytes, irrespective of culture condition or origin. This implies that the trophic effect of MSCs in co-cultures is a general phenomenon with potential implications for use in cartilage repair strategies. Introduction Despite the success of autologous chondrocyte implantation in treating large-size cartilage defects, there are some disadvantages of this treatment that limit its broader clinical application. One major issue is the requirement of relatively large quantities of chondrocytes from the patient, 1 which are obtained by in vitro expansion. The partial replacement of the chondrocytes with mesenchymal stem cells (MSC) has been proposed to tackle this problem. Many studies have evaluated the feasibility of this idea by the coculturing of MSCs and chondrocytes.2 Indeed, cartilage matrix deposition was found to be improved in the cocultures of MSCs and chondrocytes compared with the cultures of pure chondrocytes or MSCs. 3,4 In our previous report, 5 we have shown that pellet co-cultures of bovine pri...

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Osteogenesis versus chondrogenesis by BMP-2 and BMP-7 in adipose stem cells

Knippenberg

Helder

Zandieh-Doulabi

et al. 2006

Biochemical and Biophysical Research Communications

231

170

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Marco N. Helder

Adipose tissue-derived mesenchymal stem cell yield and growth characteristics are affected by the tissue-harvesting procedure

Effect of tissue-harvesting site on yield of stem cells derived from adipose tissue: implications for cell-based therapies

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Trophic Effects of Mesenchymal Stem Cells in Chondrocyte Co-Cultures are Independent of Culture Conditions and Cell Sources

Osteogenesis versus chondrogenesis by BMP-2 and BMP-7 in adipose stem cells

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