Genomic alterations in human umbilical cord–derived mesenchymal stromal cells call for stringent quality control before any possible therapeutic approach

Abstract Background aims The umbilical cord (UC) is a promising source of mesenchymal stromal cells (MSCs). UC-MSCs display very similar in vitro characteristics to bone marrow–MSCs and could represent a valuable alternative for cell-based therapies. However, it is still unclear whether UC-MSCs are...

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Veröffentlicht in:Cytotherapy (Oxford, England) England), 2013-11, Vol.15 (11), p.1362-1373
Hauptverfasser: Borghesi, Alessandro, Avanzini, Maria Antonietta, Novara, Francesca, Mantelli, Melissa, Lenta, Elisa, Achille, Valentina, Cerbo, Rosa Maria, Tzialla, Chryssoula, Longo, Stefania, De Silvestri, Annalisa, Zimmermann, Luc J.I, Manzoni, Paolo, Zecca, Marco, Spinillo, Arsenio, Maccario, Rita, Zuffardi, Orsetta, Stronati, Mauro
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Sprache:eng
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Zusammenfassung:Abstract Background aims The umbilical cord (UC) is a promising source of mesenchymal stromal cells (MSCs). UC-MSCs display very similar in vitro characteristics to bone marrow–MSCs and could represent a valuable alternative for cell-based therapies. However, it is still unclear whether UC-MSCs are prone or not to the acquisition of genomic imbalances during in vitro expansion. Methods With the use of array-comparative genomic hybridization, we compared copy number variations of early (P2–P3) and late (>P5) passages of in vitro –expanded UC-MSCs. Results In two of 11 long-term UC-MSCs cultures, we observed the appearance of clones carrying genomic imbalances, which generated genetic mosaicism at intermediate passages. Although still able to reach the senescence phase, the cells carrying the genomic imbalance acquired a proliferative advantage, as demonstrated by the increase in frequency during long-term culture. Conclusions Altogether, our results suggest that UC-MSC–based clinical protocols should be designed with caution; their clinical use should be preceded by array-comparative genomic hybridization screening for the acquisition of genomic imbalances during in vitro expansion.
ISSN:1465-3249
1477-2566
DOI:10.1016/j.jcyt.2013.06.006