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TECHNOLOGY DEVELOPMENT

Characterization of the Optimal Culture Conditions for Clinical Scale Production of Human Mesenchymal Stem Cells

Cancer Immunology and Immunotherapy Center, Saint Savas Hospital, Athens, Greece

Key Words. Mesenchymal stem cells • Clinical trials • Expansion • Culture conditions

Correspondence: Panagiota A. Sotiropoulou, Ph.D., Cancer Immunology and Immunotherapy Center, Saint Savas Hospital, 171 Alexandras Avenue, 115 22, Athens, Greece. Telephone: 30-210-6409462; Fax: 30-210-6409516; e-mail: sotiropoulou{at}ciic.gr

Mesenchymal stem cells (MSCs) are multipotent cells defined by multilineage potential, ease to gene modification, and immunosuppressive ability, thus holding promise for tissue engineering, gene therapy, and immunotherapy. They exhibit a unique in vitro expansion capacity, which, however, does not compensate for the very low percentage in their niches given the vast numbers of cells required for the relative studies. Taking into consideration the lack of a uniform approach for MSC isolation and expansion, we attempted in this study, by comparing various culture conditions, to identify the optimal protocol for the large-scale production of MSCs while maintaining their multilineage and immunosuppressive capacities. Our data indicate that, apart from the quality of fetal calf serum, other culture parameters, including basal medium, glucose concentration, stable glutamine, bone marrow mononuclear cell plating density, MSC passaging density, and plastic surface quality, affect the final outcome. Furthermore, the use of basic fi-broblast growth factor (bFGF), the most common growth supplement in MSC culture media, greatly increases the proliferation rate but also upregulates HLA-class I and induces low HLA-DR expression. However, not only does this upregulation not elicit significant in vitro allogeneic T cell responses, but also bFGF-cultured MSCs exhibit enhanced in vivo immunosuppressive potential. Besides, addition of bFGF affects MSC multilineage differentiation capacity, favoring differentiation toward the osteogenic lineage and limiting neurogenic potential. In conclusion, in this report we define the optimal culture conditions for the successful isolation and expansion of human MSCs in high numbers for subsequent cellular therapeutic approaches.

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