In Vitro Expansion of Human Mesenchymal Stem Cells: Choice of Serum is a Determinant of Cell Proliferation, Differentiation, Gene Expression and Transcriptome Stability

doi:10.1634/stemcells.2005-0094

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Original Article

In Vitro Expansion of Human Mesenchymal Stem Cells: Choice of Serum is a Determinant of Cell Proliferation, Differentiation, Gene Expression and Transcriptome Stability

Aboulghassem Shahdadfar ¹, Katrine Frønsdal ¹, Terje Haug ², Finn P Reinholt ³, Jan E Brinchmann ¹^*

¹ Institute of Immunology, Rikshospitalet University Hospital, Oslo, Norway
² Centre for Occupational and Environmental Medicine, Rikshospitalet University Hospital, Oslo, Norway
³ Institute and Department of Pathology, University of Oslo and Rikshospitalet University Hospital, Oslo, Norway

^* To whom correspondence should be addressed. E-mail: j.e.brinchmann{at}medisin.uio.no.

Abstract

Human marrow mesenchymal stem cells (hMSC) representan appealing source of adult stem cells for cell therapy andtissue engineering as they are easily obtained and expandedwhile maintaining their multilineage differentiation potential.All current protocols for in vitro culture of hMSC include fetalbovine serum (FBS) as nutritional supplement. FBS is an undesirableadditive to cells that are expanded for therapeutic purposesin humans, since the use of FBS carries the risk of transmittingviral and prion diseases and proteins that may initiate xenogeneicimmune responses. In the present study, we have therefore investigatedif autologous serum (AS) or allogeneic human serum (alloHS)could replace FBS for the expansion of hMSC in vitro. We discoveredthat the choice of serum affected hMSC at several differentlevels. First, hMSC in AS proliferated markedly faster thanhMSC in FBS, while use of alloHS resulted in hMSC growth arrestand death. Second, hMSC in FBS differentiated more rapidly towardsmesenchymal lineages compared with hMSC in AS. Interestingly,genome-wide microarray analysis identified a number of transcriptsinvolved in cell cycle and differentiation which were differentiallyregulated between hMSC in FBS and AS. Finally, a number of transcripts,including some involved in cell cycle inhibition, were up-regulatedin hMSCs in FBS at a late passage, while the hMSC transcriptomein AS was remarkably stable. Thus, hMSC may be expanded rapidlyand with stable gene expression in AS in the absence of growthfactors, whereas FBS induces a more differentiated and lessstable transcriptional profile.

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