TY - JOUR
T1 - Enhanced chondrogenic differentiation of murine embryonic stem cells in hydrogels with glucosamine
AU - Hwang, Nathaniel S.
AU - Varghese, Shyni
AU - Theprungsirikul, Parnduangjai
AU - Canver, Adam
AU - Elisseeff, Jennifer
N1 - Funding Information:
This study was supported by the Johns Hopkins University (JHU)-Technion Program and the Whitaker Foundation. The authors are grateful to Dr. Zijun Zhang for critical review and technical assistance.
PY - 2006/12
Y1 - 2006/12
N2 - Differentiation of embryonic stem (ES) cells generally occurs after formation of three-dimensional cell aggregates, known as embryoid bodies (EBs). We have previously reported that hydrogels provide EBs a supportive environment for in vitro chondrogenic differentiation and three dimensional tissue formation [Hwang NS, et al. The Effects of three dimensional culture and growth factors on the chondrogenic differentiation of murine ES cells. Stem Cells 2006;24:284-91]. In this study, we report chondrogenic differentiation of murine ES cells encapsulated in photopolymerizing poly(ethylene-glycol)-based (PEG) hydrogels in the presence of glucosamine (GlcN), an amino monosaccharide found in chitin, glycoproteins and glycosaminoglycans such as hyaluronic acid, chondroitin sulfate and heparin sulfate. We examined the growth and differentiation of encapsulated EBs in standard chondrogenic differentiation medium containing 0-, 2-, and 10-mm GlcN. Morphometric analysis and examination of gene and protein expression indicated that treatment of hydrogel cultures with 2-mm GlcN for 21 days significantly increased EB size, levels of aggrecan mRNA, and tissue-specific extracellular matrix accumulation. GlcN can induce multiple aspects of cell behavior and optimal GlcN concentrations can be beneficial for directing the differentiation and tissue formation of ES cells.
AB - Differentiation of embryonic stem (ES) cells generally occurs after formation of three-dimensional cell aggregates, known as embryoid bodies (EBs). We have previously reported that hydrogels provide EBs a supportive environment for in vitro chondrogenic differentiation and three dimensional tissue formation [Hwang NS, et al. The Effects of three dimensional culture and growth factors on the chondrogenic differentiation of murine ES cells. Stem Cells 2006;24:284-91]. In this study, we report chondrogenic differentiation of murine ES cells encapsulated in photopolymerizing poly(ethylene-glycol)-based (PEG) hydrogels in the presence of glucosamine (GlcN), an amino monosaccharide found in chitin, glycoproteins and glycosaminoglycans such as hyaluronic acid, chondroitin sulfate and heparin sulfate. We examined the growth and differentiation of encapsulated EBs in standard chondrogenic differentiation medium containing 0-, 2-, and 10-mm GlcN. Morphometric analysis and examination of gene and protein expression indicated that treatment of hydrogel cultures with 2-mm GlcN for 21 days significantly increased EB size, levels of aggrecan mRNA, and tissue-specific extracellular matrix accumulation. GlcN can induce multiple aspects of cell behavior and optimal GlcN concentrations can be beneficial for directing the differentiation and tissue formation of ES cells.
KW - Chondrogenesis
KW - Embryonic stem cells
KW - Glucosamine
KW - Hydrogels
KW - Three-dimensional (3-D) culture
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U2 - 10.1016/j.biomaterials.2006.06.033
DO - 10.1016/j.biomaterials.2006.06.033
M3 - Article
C2 - 16872674
AN - SCOPUS:33748960410
SN - 0142-9612
VL - 27
SP - 6015
EP - 6023
JO - Biomaterials
JF - Biomaterials
IS - 36
ER -