Survival of porcine mesenchymal stem cells over the alginate recovered cellular method

Although previous studies have established alginate as a three-dimensional scaffold for chondrogenic differentiation of mesenchymal stem cells (MSCs), little is known about the cytotoxic effects of the polymerizing and chelating reagents used in the alginate recovered cellular method. Swine MSCs (sMSC) were suspended in the polymerizing agent, CaCl2, and viability was assessed using a trypan blue exclusion assay at intervals over 2 h. MSCs were also suspended in two different chelating agents, 55 mM sodium citrate and 50 mM EDTA, and viability was calculated. Finally, sMSCs and human MSCs were encapsulated and cultured in vitro. The sMSC were collected at day 4 and the cells were recovered by chelation. Encapsulated hMSCs were cultured with TGF beta 3 and IGF-1 and assayed by qRT-PCR for collagen types I and II and sox9 with encapsulated human dermal fibroblasts and chondrocytes as controls recovered on days 0, 7, and 14. Only 53% of sMSCs were viable after 10 min in CaCl2, the standard polymerization period, whereas 94% of encapsulated sMSCs in polymerized alginate were alive at 15 days. After 20 min in chelating agents, sodium citrate and EDTA, only 46% and 17% of the cells, were viable, respectively. The alginate recovered sMSCs yielded 12% survival. Human MSCs unregulated cartilage-specific collagen type II over the 14-day culture. Collagen I remained unchanged in the hMSCs. Alginate is a suitable agent for chondrodifferentiation of MSCs and can be dissolved by chelation, but the agents involved in hydrogel polymerization and cell recovery should be altered to improve MSC survival. (C) 2010 Wiley Periodicals, Inc. J Biomed Mater Res Part A: 96A: 93-99, 2011.