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人脂肪来源干细胞与膀胱脱细胞基质-丝素蛋白双层支架的生物相容性研究
引用本文:赵阳,;吴稼晟,;周哲,;周娟,;张明,;李伟,;王忠,;孙康,;卢慕峻. 人脂肪来源干细胞与膀胱脱细胞基质-丝素蛋白双层支架的生物相容性研究[J]. 组织工程与重建外科, 2014, 10(6): 309-313. DOI: 10.3969/j.issn.1673-0364.2014.06.003
作者姓名:赵阳,  吴稼晟,  周哲,  周娟,  张明,  李伟,  王忠,  孙康,  卢慕峻
作者单位:上海交通大学医学院附属第九人民医院泌尿外科;上海交通大学材料科学与工程学院
基金项目:国家自然科学基金项目(81070605,81370860);上海交通大学“医工(理)交叉研究基金”(YG2011MS14).
摘    要:目的观察人脂肪来源干细胞(Human adipose derived stem cells,h ASCs)在膀胱黏膜下脱细胞基质-丝素蛋白(Bladder acellular matrix graft-silk fibroin,BAMG-SF)双层支架材料中的生长情况,分析其生物相容性。方法取h ASCs,置于BAMG-SF浸提液中培养,CCK-8法检测其细胞活力,评价BAMG-SF支架的细胞毒性并绘制生长曲线。扫描电镜观察BAMG-SF双层支架材料的表面形貌。将h ASCs传代扩增后接种到BAMG-SF双层支架材料上,体外培养1周后,转至裸鼠皮下培养1周、2周,HE染色观察细胞在支架上的生长情况。HLA免疫荧光鉴定裸鼠皮下双层支架上细胞的种属来源。结果 h ASCs在BAMG-SF双层支架浸提液中可保持较高的增殖率,根据细胞相对增殖率与细胞毒性分级关系证实BAMG-SF双层支架浸提液无细胞毒性。由h ASCs在BAMG-SF浸提液和DMEM培养基中的生长曲线可知,BAMG-SF有利于h ASCs的生长。将h ASCs接种到BAMG-SF双层支架材料上,经过体外、内培养,h ASCs均能长入支架的空隙内,且体内培养比体外培养有更多的h ASCs细胞长入支架。HLA检测显示支架内细胞部分为h ASCs。结论新型BAMG-SF双层支架材料安全无毒,与h ASCs生物相容性好,可作为细胞载体应用于组织工程膀胱的研究。

关 键 词:人脂肪来源干细胞  膀胱黏膜下脱细胞基质  丝素蛋白  双层支架材料  组织工程  

Human Adipose-De rived Stem Cells and its Biocompatibility with Bladder Acellular Matrix Graft-Silk Fibroin Bilayer Scaffold
ZHAO Yang,WU Jiasheng,ZHOU Zhe,ZHOU Juan,ZHANG Ming,LI Wei,WANG Zhong,SUN Kang,LU Mujun. Human Adipose-De rived Stem Cells and its Biocompatibility with Bladder Acellular Matrix Graft-Silk Fibroin Bilayer Scaffold[J]. Journal of Tissue Engineering and Reconstructive Surgery, 2014, 10(6): 309-313. DOI: 10.3969/j.issn.1673-0364.2014.06.003
Authors:ZHAO Yang  WU Jiasheng  ZHOU Zhe  ZHOU Juan  ZHANG Ming  LI Wei  WANG Zhong  SUN Kang  LU Mujun
Affiliation:Department of Plastic and Reconstructive Surgery, Shanghai Ninth People’s Hospital, Shanghai Jiaotong University School of Medicine;Shanghai Jiaotong University School of Materials Science and Engineering;
Abstract:Objective To observe the growth of human adipose-derived stem cells (hASCs) in bladder acellular matrix graft-silk fibroin (BAMG-SF) bilayer scaffold and to analyze the biological compatibility of BAMG-SF with hASCs. Methods hASCs were isolated from human subcutaneous adipose tissue after collagenase digesting, filtrating and centrifuging, then cultured in the leaching solution of BAMG-SF. The cytotoxicity of scaffold was evaluated by CCK-8 cell viability assay, and the growth curves were also observed. Surface morphology on BAMG-SF was observed by scanning electron microscopy (SEM). The hASCs of passage 3 were seeded onto the BAMG-SF bilayer scaffolds for 1 week, then the BAMG-SF bilayer scaffolds seeded with hASCs were transplanted into nude mouse for 1 week or 2 weeks. The growth of cells in BAMG-SF biomaterials was observed by HE staining. The species origin of these cells in the BAMG-SF scaffolds cultured in vivo was detected by Immunofluorescence. Results hASCs maintained high proliferation rate in the leaching solution of BAMG-SF and the BAMG-SF scaffolds were nontoxic absolutely. According to the growth curves of hASCs cultured in the leaching solution of the BAMG-SF and DMEM, BAMG-SF scaffolds were conducive to the growth of hASCs. The histological study found that hASCs could grow into the space of the BAMG-SF scaffolds after cultured in vitro and in vivo. There were more cells in the scaffolds cultured in vivo than in vitro. Immuno-fluorescence suggested that some of the cells inside the scaffolds were hASCs. Conclusion BAMG-SF bilayer scaffolds are nontoxic and have a good biocompatibility with hASCs, which can be used as a vehicle for hASCs in bladder defect reconstruction.
Keywords:Human adipose-derived stem cells  Bladder acellular matrix graft  Silk fibroin  Bilayer scaffold  Tissue engineering
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