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应用微重力旋转生物反应器培养小鼠脂肪干细胞的初步实验研究 被引量:1

Proliferation and Differentiation of Mouse Adipose Stem Cells in Rotary Cell Culture System
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摘要 目的:观察微重力旋转培养系统(Rotary Cell Culture System,RCCS),对小鼠脂肪干细胞增殖的影响,以寻求一种更有效的促进干细胞扩增的方法。方法:从小鼠的脂肪组织中提取分离、培养脂肪干细胞(ADSCs),并对脂肪干细胞进行流式鉴定后,利用活细胞观察法、Dil免疫荧光标记法、扫描电镜法观察微重力旋转三维培养系统对脂肪干细胞增殖的影响;通过与平面二维培养作对比,血小板计数法记录细胞的增殖情况,并绘制生长曲线。结果:两组的细胞倍增时间具有统计学意义(P<0.05),模拟微重力旋转三维培养系统较传统平面二维培养系统,脂肪干细胞增殖更明显,生长速度更快。结论:模拟微重力旋转三维培养系统更有利于脂肪干细胞的增殖生长,为后期利用脂肪干细胞修复受损涎腺提供一种更快捷有效的扩增方法。 Objective: To find a more effective method to promote amplification of the stem cells, through observing the influence of the 3D microgravity rotation system (RCCS) to the development of adipose stem cell proliferation. Methods: Extracted and separated the fat tissue from the mice, cultivating adipose stem cells (ADSCs), and using flow cytometer to identify the fat cells, using living cells observation, Dil immunofluorescence mark method, scanning electron microscopy (SEM) method to observe the influence of 3D microgravity rotating culture system to the fat stem cell proliferation; use platelet method to record the cell proliferation and draw the growth curve. Results: We found that cell doubling time had statistical significance contrast to the two-dimensional culture method (P〈 0.05). Compared to the traditional two-dimensional culture system, the 3D microgravity rotating culture system is more apparent in cell proliferation and cells are growing faster. Conclusion: 3D simulated microgravity rotating culture system is more advantageous to fat cells proliferation growth, which is a more efficient amplification method for tissue engineering.
作者 邢红艳 刘彦普 周密 王艳 胡翰青 银颂 刘斌
机构地区 第四军医大学口腔医院颌面外科 第四军医大学口腔医院生物教研室 总后老干部服务管理局门诊部 第四军医大学口腔医院生物教研室及实验动物中心
出处 《现代生物医学进展》 CAS 2013年第8期1459-1463,共5页 Progress in Modern Biomedicine
基金 国家自然科学基金项目(31170942)
关键词 模拟微重力 脂肪干细胞 三维培养 微载体 Simulated microgravity Adipose stem cells Microgravity rotation system Microcarrier
分类号 R782.7 [医药卫生—口腔医学]
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参考文献18

  • 1Zuk PA, Zhu M, Mizuno H, et al. Multilineage cclls from humanadipose tissue: implications for cell based therapies [J]. Tissue Eng,2001,7(2):211-228.
  • 2Choi Y S, Cha S M, Lee Y Y, et al. Adipogcnic differentiation ofadipose tissue derived adult stem cells in nude mouse [J]. BiochemBiophys Res Commun,2006,345(2):631 -637.
  • 3Gabbay J S, Heller J B, Mitchell S A, et al. Osteogenic potentiation ofhuman adipose-derived stem cells in a 3-dimensional matrix [J]. AnnPlast Surg,2006,57(1):89-93.
  • 4Jin X,Sun Y, Zhang K, et al. Ectopic neocartilage formation frompredifferentiated human adipose derived stem cells induced byadenoviral-mediated transfer of hTGF beta2[J]. Biomaterials,2007^8(19):2994-3003.
  • 5Rodriguez L V, Alfonso Z,Zhang R, et al. Clonogenic multipotentstem cells in human adipose tissue differentiate into functionalsmooth muscle cells [J]. Proc Natl Acad Sci U S A,2006,103 (32):12167-12172.
  • 6Kokai L E, Rubin J P, Marra K G. The potential of adipose-derivedadult stem cells as a source of neuronal progenitor cells [J]. PlastReconstr Surg,2005,116(5):1453-1460.
  • 7Zhu Y, Liu T, Song K, et al. ADSCs differentiated into cardiomyocytesin cardiac microenvironment [J]. Mol Cell Biochem,2009,324(1-2):117-129.
  • 8Rehman J, Traktuev D, Li J, et al. Secretion of angiogenic andantiapoptotic factors by human adipose stromal cells [J]. Circulation,2004,109:1292-1298.
  • 9Schmelzer E,Zhang L, Bruce A, et al. Human hepatic stem cells fromfetal and postnatal donors[J]. J Exp Meds2007,204(8): 1973-1987.
  • 10Pellegrini M,Di Siena S, Claps G, et al. Microgravity promotesdifferentiation and meiotic entry of postnatal mouse male germ cells[J]. PLoS One,2010,5(2):e9064.

二级参考文献16

  • 1Jackson IT,Simman R.Tholen R,et al.A successful long-term method of fat grafting:recontouring of a large subcutaneous postradiation thigh defect with autologous fattransplantation[J].Aesth Plast Surg,2001,25(3):165-169.
  • 2Nguyen A,Pasyk KA,Bouvier TN,et al.Comparative study of survival of autologous adipose tissue taken and transplanted by different techniques[J].Plast Reconstr Surg,1990,85(3):378-386,387-389.
  • 3Patrick CJ.Tissue engineering strategies for adipose tissue repair[J].Anat Rec,2001,263(4):361-366.
  • 4Tories FC,Rodrigues CJ,Stocchero IN,et al.Stem cells from the fat tissue of rabbits:an easy-to-find experimental source[J].Aesth Plast Surg,2007,31(5):574-578.
  • 5Tomes FC,Rodrigues CJ,Stocchero IN,et al.Stem cells from the fat tissue of rabbits:an easy-to-find experimental source[J].Aesth Plast Surg,2007,31(5):574-578.
  • 6Zuk PA,Zhu M,Ashjian P,et al.Human adipose tissue is a source of multipotent stem cells[J].Mol Biol Cell,2002,13(12):4279-4295.
  • 7Yoshimura K,Sato K,Aoi N,et al.Cell-assisted lipotransfer for cosmetic breast augmentation:supportive use of adipose-derived stem/stromal cells[J].Aesth Plast Surg,2008,32(1):48-55,56-57.
  • 8Guar M,Pang CP,Yam HF,et al.Inhibition of glioma invasion by overexpression of pigment epithelium-derived factor[J].Cancer Gene Ther,2004,11(5):325-332.
  • 9Mina KW,Min KH,Chang H,et al.Effects of fat preparation methods on the viabilities of autologous fat grafts[J].Aesth Plast Surg,2010,34(5):626-631.
  • 10Ahn JM,Mao JJ.Adipose tissue engineering from adult human stem cells:a new concept in biosurgery[J].Facial Plast Surg,2010,26(5):413-420.

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现代生物医学进展
2013年 第8期

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