期刊
BIOMATERIALS
卷 32, 期 33, 页码 8436-8445出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.biomaterials.2011.07.056
关键词
Mesenchymal stem cell; Polyethylene; Microsphere; Cartilage tissue engineering; TGP-beta; Chondrocyte
资金
- NIH from the Eunice Kennedy Shriver National Institute of Child Health & Human Development [5R24HD000836]
- Arthritis Foundation [R21RR025397, R01HL085364]
Biomaterial microparticles are commonly utilized as growth factor delivery vehicles to induce chondrogenic differentiation of mesenchymal stem/stromal cells (MSCs). To address whether the presence of microparticles could themselves affect differentiation of MSCs, a 3D co-aggregate system was developed containing an equal volume of human primary bone marrow-derived MSCs and non-degradable RGD-conjugated poly(ethylene glycol) microspheres (PEG-mu s). Following TGF-beta 3 induction, differences in cell phenotype, gene expression and protein localization patterns were found when compared to MSC aggregate cultures devoid of PEG-mu s. An outer fibrous layer always found in differentiated MSC aggregate cultures was not formed in the presence of PEG-mu s. Type II collagen protein was synthesized by cells in both culture systems, although increased levels of the long (embryonic) procollagen isoforms were found in MSC/PEG-mu s aggregates. Ubiquitous deposition of type I and type X collagen proteins was found in MSC/PEG-mu s cultures while the expression patterns of these collagens was restricted to specific areas in MSC aggregates. These findings show that MSCs respond differently to TGF-beta 3 when in a PEG-mu s environment due to effects of cell dilution, altered growth factor diffusion and/or cellular interactions with the microspheres. Although not all of the expression patterns pointed toward improved chondrogenic differentiation in the MSC/PEG-mu s cultures, the surprisingly large impact of the microparticles themselves should be considered when designing drug delivery/scaffold strategies. (C) 2011 Elsevier Ltd. All rights reserved.
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