脂肪源性干细胞的原代分离和培养及其表型特征

Pub Date : 2020-01-01 DOI:10.1080/20905068.2020.1750863
M. A. Helmy, Adham F. Mohamed, H. Rasheed, Amira I. Fayad
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引用次数: 6

摘要

背景:脂肪组织(AT)是间充质干细胞(MSCs)的丰富来源,然而,干细胞的分离和培养尚无标准化的方案。这导致结果不一致,限制了不同实验室数据的比较。我们的目的是为ASCS的分离和扩增,研究细胞行为和定义其细胞表面标记物提供一种应用方案。ASCs是由腹部成形术或乳房缩小术后切除的脂肪组织(RAT)和无激光吸脂后的吸脂物(LPA)培养的。方法:使用不同葡萄糖浓度的DMEM培养基,将基质血管部分(SVF)与RAT作为原料共培养。共培养方案旨在模拟细胞生长所需的正常生理条件。用流式细胞术对ASCs进行免疫表型分析,确定其MSCs表面标记物。结果:从大鼠与SVF共培养中分离到具有成纤维细胞样贴壁细胞形态的ASCs。在第14天和第28天,LPA分离的ASCs产量显著高于RAT (p = 0.002, <0.001)。高糖(4.5 g/L)培养的ASCs在第7天和第14天的增殖率显著高于低糖(1 g/L)培养的ASCs (p = 0.04, 0.015)。两种方案分离的ASCs均为CD34、CD49d、CD73、CD90和CD105阳性,CD3、CD14、CD19、CD45和HLA-DR阴性。结论:我们得出结论,我们的方案收获的细胞是ASCs。因此,我们的方法是在模拟正常生理状态的培养条件下获得原代ASCs的有效分离工具。这将有助于为进一步研究提供与人体组织细胞相似的ASCs。
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A protocol for primary isolation and culture of adipose-derived stem cells and their phenotypic profile
ABSTRACT Background: Adipose tissue (AT) is a rich source of mesenchymal stem cells (MSCs), however, there is no standardized protocol for stem cell isolation and culture. This leads to inconsistency of the results and limits the comparison of the data from different laboratories. Our aim was to provide an applied protocol for ASCS isolation and expansion, study the cell behavior and define their cellular surface markers. ASCs were cultured from both resected adipose tissue (RAT) obtained following abdominoplasty or breast reduction and lipoaspirates (LPA) following laser-free liposuction. Method: the protocol entailed coculturing of stromal vascular fraction (SVF) with RAT as raw pieces using DMEM medium with varying glucose concentration. The coculture protocol aimed to mimic the normal physiological conditions required for cell growth. ASCs were immunophenotyped to define their MSCs surface markers by flowcytometry. Results: ASCs were isolated from coculturing RAT with SVF with fibroblast-like adherent cells morphology. The ASCs yield isolated from LPA was significantly greater than from RAT on day 14 and 28 (p = 0.002, <0.001, respectively). Significant increase in ASCs proliferation rate was detected when ASCs were cultured under high glucose (4.5 g/L) compared to low glucose (1 g/L) condition on day 7 and 14 (p = 0.04, 0.015, respectively). ASCs isolated from both protocols were positive for CD34, CD49d, CD73, CD90 and CD105 and negative for CD3, CD14, CD19, CD45 and HLA-DR. Conclusion: We concluded that the cells harvested by our protocol were ASCs. Hence, our method can be an efficient isolation tool to obtain primary ASCs under culture conditions mimicking normal physiological status. This will help in providing ASCs which can be similar to cells in human tissue for further study.
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