机构地区:[1]Department of Materials Science and Engineering, The Ohio State University [2]Davis Heart and Lung Research Institute, The Ohio State University
出 处:《Science China Chemistry》2014年第4期568-578,共11页中国科学(化学英文版)
基 金:supported by the National Science Foundation of the United States(1160122,1006734)
摘 要:Stem cell therapy is a promising approach to treat myocardial infarction. However, direct delivery of stem cells into hearts experiences poor cell engraftment and differentiation, due to ischemic conditions (low nutrient and oxygen) in the infarct hearts. Development of suitable cell carriers capable of supporting cell survival and differentiation under these harsh conditions is critical for improving the efficacy of current stem cell therapy. In this work, we created a family of novel cell carriers based on thermosensitive hydrogels and insulin-like growth factor 1 (IGF-1), and investigated if these cell carriers can improve cell sur- vival and differentiation under ischemic conditions. The thermosensitive hydrogels were synthesized from N-isopropylacryla- mide, acrylic acid, acrylic acid N-bydroxysuccinicimide ester, and 2-hydroxyethyl methacrylate-oligo(hydroxybutyrate). The hydrogel solutions can be readily injected through 26G needles, and can quickly solidify at 37 ~C to form highly flexible hy- drogels. IGF-I was immobilized into the hydrogels in order to support long-term cell survival and differentiation. Different amount of IGF- 1 was immobilized by using hydrogels with different content of N-hydroxysuccinicimide ester groups. Cardio- sphere derived cells were encapsulated in the hydrogels and cultured under ischemic conditions. The results demonstrated that a significant improvement of cell survival and differentiation was achieved after IGF-1 immobilization. These IGF-1 immobi- lized hydrogels have the potential to improve cell survival and differentiation in infarct hearts.Stem cell therapy is a promising approach to treat myocardial infarction. However, direct delivery of stem cells into hearts experiences poor cell engraftment and differentiation, due to ischemic conditions(low nutrient and oxygen) in the infarct hearts. Development of suitable cell carriers capable of supporting cell survival and differentiation under these harsh conditions is critical for improving the efficacy of current stem cell therapy. In this work, we created a family of novel cell carriers based on thermosensitive hydrogels and insulin-like growth factor 1(IGF-1), and investigated if these cell carriers can improve cell survival and differentiation under ischemic conditions. The thermosensitive hydrogels were synthesized from N-isopropylacryla- mide, acrylic acid, acrylic acid N-hydroxysuccinicimide ester, and 2-hydroxyethyl methacrylate-oligo(hydroxybutyrate). The hydrogel solutions can be readily injected through 26G needles, and can quickly solidify at 37 oC to form highly flexible hydrogels. IGF-1 was immobilized into the hydrogels in order to support long-term cell survival and differentiation. Different amount of IGF-1 was immobilized by using hydrogels with different content of N-hydroxysuccinicimide ester groups. Cardiosphere derived cells were encapsulated in the hydrogels and cultured under ischemic conditions. The results demonstrated that a significant improvement of cell survival and differentiation was achieved after IGF-1 immobilization. These IGF-1 immobilized hydrogels have the potential to improve cell survival and differentiation in infarct hearts.
关 键 词:thermosensitive hydrogels cardiosphere derived cells myocardial infarction cardiac differentiation stem cells
分 类 号:R542.22[医药卫生—心血管疾病] O648.17[医药卫生—内科学]
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