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pubmed-article:14647922pubmed:abstractTextChondrocyte ex vivo expansion currently performed to replace damaged articular surfaces is associated with a loss of telomeric repeats similar to decades of aging in vivo. This might affect the incidence or time of onset of age-related disorders within transplanted cells or tissues. This study examined whether more immature progenitor cells, such as mesenchymal stem cells (MSC), which can be expanded and subsequently differentiated into chondrocytes is advantageous regarding telomere-length related limitations of expansion protocols. Primary chondrocytes and bone-marrow-derived MSC were isolated from 12 donors, expanded separately to 4 x 10(6) cells, and (re-)differentiated as three-dimensional chondrogenic spheroids. Cells were collected during expansion, after three-dimensional culturing and chondrogenic differentiation, and sequential analyses of telomere length and telomerase activity were performed. Surprisingly, telomeres of expanded MSC were significantly shorter than those from expanded chondrocytes from the same donor (11.4+/-2.5 vs. 13.4+/-2.2 kb) and tended to remain shorter after differentiation in chondrogenic spheroids (11.9+/-1.8 vs. 13.0+/- kb). While telomere lengths in native chondrocytes and MSC were not related to the age of the donor, significant negative correlations with age were observed in expanded (136 bp/year), three-dimensionally reconstituted (188 bp/year), and redifferentiated (229 bp/year) chondrocytes. Low levels of telomerase activity were found in MSC and chondrocytes during expansion and after (re-)differentiation to chondrogenic spheroids. In terms of replicative potential, as determined by telomere length, ex vivo expansion followed by chondrogenic differentiation of MSC did not provide a benefit compared to the expansion of adult chondrocytes. However, accelerated telomere shortening with age during expansion and redifferentiation argues for an "age phenotype" in chondrocytes as opposed to MSC and suggests an advantage for the use of MSC especially in older individuals and protocols requiring extensive expansionlld:pubmed
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pubmed-article:14647922pubmed:dateRevised2011-7-8lld:pubmed
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pubmed-article:14647922pubmed:articleTitleTelomere length and telomerase activity during expansion and differentiation of human mesenchymal stem cells and chondrocytes.lld:pubmed
pubmed-article:14647922pubmed:affiliationDepartment of Orthopedic Surgery, University of Heidelberg, Schlierbacher Landstrasse 200, 69118 Heidelberg, Germany. dominik.parsch@ok.uni-heidelberg.delld:pubmed
pubmed-article:14647922pubmed:publicationTypeJournal Articlelld:pubmed
pubmed-article:14647922pubmed:publicationTypeResearch Support, Non-U.S. Gov'tlld:pubmed
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