自由流动电泳允许从条件细胞培养基中快速和可复制地制备细胞外囊泡

S. Staubach, T. Tertel, Bernd Walkenfort, Dominik Buschmann, M. Pfaffl, G. Weber, B. Giebel
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引用次数: 4

摘要

目的:尽管在过去十年中进行了大量的研究,但制备高纯度的细胞外囊泡(ev)仍然具有挑战性,特别是从原代体液或富含蛋白质的条件培养基中制备。目前,至少需要两种正交方法的耗时组合,例如密度和尺寸分离,才能将电动汽车浓缩到高纯度,通常需要花费处理时间。因此,需要新颖的技术,使EV制备在可接受的时间间隔和公平的纯度。自由流动电泳(FFE)构成了一种成熟的半制备方法来分离和制备分析物,例如,通过其电荷的固有差异。FFE结合了流动驱动的纵向运输样品材料与垂直电泳,并允许样品组分分离成多达96个不同的分数。我们的目的是评估FFE从含有富含蛋白质的ev条件细胞培养基的其他样品组分中分离ev的潜力。方法:例如,在含有10%人血小板裂解液的ev存在下培养间充质干细胞/基质细胞的条件培养基。我们通过不同的技术,包括成像流式细胞术,western blot和纳米颗粒跟踪分析,分析得到的部分。结果:我们证明了FFE快速且可重复性地从原始样品中包含的大部分分子中分离出ev。结论:我们的结果证明FFE是一种可行的、快速的、可重复的制备真正ev的技术。
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Free flow electrophoresis allows quick and reproducible preparation of extracellular vesicles from conditioned cell culture media
Aim: Despite intensive research during the last decade, it remains challenging to prepare extracellular vesicles (EVs) of high purity, especially from primary body liquids or protein-rich conditioned media. For now, time-consuming combinations of at least two orthogonal methods, e.g., density and size separation, are required to enrich EVs to high purity, often at the expense of processing time. Therefore, novel technologies are required that allow EV preparation in acceptable time intervals and to fair purities. Free-flow electrophoresis (FFE) constitutes a well-established semi-preparative method to separate and prepare analytes, e.g., by inherent differences in their electric charges. FFE combines a flow-driven longitudinal transport of sample material with vertical electrophoresis and allows the separation of sample components into up to 96 different fractions. It was our aim to evaluate the potential of FFE for the separation of EVs from other sample components of EV-containing protein-rich conditioned cell culture media. Methods: Exemplarily, conditioned media of mesenchymal stem/stromal cells raised in the presence of EV-containing 10% human platelet lysate were processed. We analyzed the obtained fractions by different technologies, including imaging flow cytometry, western blot and nanoparticle tracking analysis. Results: We demonstrate that FFE quickly and reproducibly separates EVs from a huge proportion of molecules included in the original sample. Conclusion: Our results qualify FFE as a feasible, quick and reproducible technology for the preparation of bona fide EVs.
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