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Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_III | Pages 459 - 459
1 Sep 2009
Pelttari K Boeuf S Lorenz H Goetzke K Templin MF Steck E Richter W
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Monolayer expansion of human articular chondrocytes (HAC) is known to result in progressive dedifferentiation and loss of stable cartilage formation capacity in vivo. For optimal outcome of chondrocyte based repair strategies, HAC capable of ectopic cartilage formation may be required. Thus, the aim of this study was to establish appropriate quality control measures capable to predict the ectopic cartilage formation capacity of HAC from culture supernatants. This strategy would avoid the waste of cells for quality control purposes, in order to improve cell therapy and tissue-engineering approaches for the repair of joint surface lesions.

Standardized medium supernatants (n=5) of freshly isolated HAC and chondrocytes expanded for 2 (PD2) or 6 population doublings (PD6) were screened for 15 distinct interleukins, 8 MMPs and 11 miscellaneous soluble factors by a multiplexed immunoassay. Cartilage differentiation markers like COMP and YKL-40 were determined by ELISA. Corresponding HAC were subcutaneously transplanted into SCID-mice and their capacity to form stable ectopic cartilage was examined histologically 4 weeks later.

While freshly isolated chondrocytes generated stable ectopic cartilage positive for collagen type II, none of the PD6 transplants formed cartilaginous matrix. Loss of ectopic stable cartilage formation capacity between PD0 and PD6 correlated with a drop of MMP3 secretion to < 10% of initial levels, while changes for other investigated molecules were not predictive. Chondrocytes from donors with low MMP3 levels (< 10%) at PD2 failed to regenerate ectopic cartilage at PD2, indicating that MMP3 levels of cultured chondrocytes, independent of the number of cell doublings and the time in culture, predicted ectopic cartilage formation.

In conclusion, loss of stable ectopic cartilage formation capacity in the course of HAC dedifferentiation can be predicted by determination of relative MMP3 levels demonstrating that standardized culture supernatants can be used for quality control of chondrocytes dedicated for cell therapeutic approaches.