切向流过滤法从 MSC 三维培养物中产生的外泌体具有更高的产量和改善的活性。

Exosomes Produced from 3D Cultures of MSCs by Tangential Flow Filtration Show Higher Yield and Improved Activity.

机构信息

RNA Therapeutics Institute, University of Massachusetts Medical School, Worcester, MA, USA.

Department of Medicine, University of Massachusetts Medical School, Worcester, MA, USA.

出版信息

Mol Ther. 2018 Dec 5;26(12):2838-2847. doi: 10.1016/j.ymthe.2018.09.015. Epub 2018 Sep 22.

DOI:10.1016/j.ymthe.2018.09.015

PMID:30341012

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6277553/

Abstract

Exosomes can deliver therapeutic RNAs to neurons. The composition and the safety profile of exosomes depend on the type of the exosome-producing cell. Mesenchymal stem cells are considered to be an attractive cell type for therapeutic exosome production. However, scalable methods to isolate and manufacture exosomes from mesenchymal stem cells are lacking, a limitation to the clinical translation of exosome technology. We evaluate mesenchymal stem cells from different sources and find that umbilical cord-derived mesenchymal stem cells produce the highest exosome yield. To optimize exosome production, we cultivate umbilical cord-derived mesenchymal stem cells in scalable microcarrier-based three-dimensional (3D) cultures. In combination with the conventional differential ultracentrifugation, 3D culture yields 20-fold more exosomes (3D-UC-exosomes) than two-dimensional cultures (2D-UC-exosomes). Tangential flow filtration (TFF) in combination with 3D mesenchymal stem cell cultures further improves the yield of exosomes (3D-TFF-exosomes) 7-fold over 3D-UC-exosomes. 3D-TFF-exosomes are seven times more potent in small interfering RNA (siRNA) transfer to neurons compared with 2D-UC-exosomes. Microcarrier-based 3D culture and TFF allow scalable production of biologically active exosomes from mesenchymal stem cells. These findings lift a major roadblock for the clinical utility of mesenchymal stem cell exosomes.

摘要

外泌体可以将治疗性 RNA 递送至神经元。外泌体的组成和安全性取决于产生外泌体的细胞类型。间充质干细胞被认为是治疗性外泌体生产的有吸引力的细胞类型。然而，缺乏从间充质干细胞中分离和制造外泌体的可扩展方法，这限制了外泌体技术的临床转化。我们评估了来自不同来源的间充质干细胞，发现脐带衍生的间充质干细胞产生的外泌体产量最高。为了优化外泌体的生产，我们在可扩展的基于微载体的三维（3D）培养中培养脐带衍生的间充质干细胞。结合常规差速超速离心，3D 培养比二维培养（2D-UC-exosomes）产生的外泌体多 20 倍（3D-UC-exosomes）。与 3D 间充质干细胞培养相结合的切向流过滤（TFF）进一步将外泌体的产量提高了 7 倍（3D-TFF-exosomes）。与 2D-UC-exosomes 相比，3D-TFF-exosomes 在将小干扰 RNA（siRNA）转移至神经元方面的效力高 7 倍。基于微载体的 3D 培养和 TFF 允许从间充质干细胞中可扩展地生产具有生物活性的外泌体。这些发现为间充质干细胞外泌体的临床应用消除了一个主要障碍。

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