用于从人多能干细胞进行心脏分化的可扩展悬浮培养体系的开发。

Development of a scalable suspension culture for cardiac differentiation from human pluripotent stem cells.

作者信息

Chen Vincent C, Ye Jingjing, Shukla Praveen, Hua Giau, Chen Danlin, Lin Ziguang, Liu Jian-chang, Chai Jing, Gold Joseph, Wu Joseph, Hsu David, Couture Larry A

机构信息

Center for Biomedicine and Genetics, Beckman Research Institute of City of Hope, 1500 E. Duarte Road, Duarte, CA 91010, USA.

Center for Applied Technology Development, Beckman Research Institute of City of Hope, 1500 E. Duarte Road, Duarte, CA 91010, USA; Stanford Cardiovascular Institute, Stanford University School of Medicine, Stanford, CA, USA.

出版信息

Stem Cell Res. 2015 Sep;15(2):365-75. doi: 10.1016/j.scr.2015.08.002. Epub 2015 Aug 13.

DOI:10.1016/j.scr.2015.08.002

PMID:26318718

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4600677/

Abstract

To meet the need of a large quantity of hPSC-derived cardiomyocytes (CM) for pre-clinical and clinical studies, a robust and scalable differentiation system for CM production is essential. With a human pluripotent stem cells (hPSC) aggregate suspension culture system we established previously, we developed a matrix-free, scalable, and GMP-compliant process for directing hPSC differentiation to CM in suspension culture by modulating Wnt pathways with small molecules. By optimizing critical process parameters including: cell aggregate size, small molecule concentrations, induction timing, and agitation rate, we were able to consistently differentiate hPSCs to >90% CM purity with an average yield of 1.5 to 2×10(9) CM/L at scales up to 1L spinner flasks. CM generated from the suspension culture displayed typical genetic, morphological, and electrophysiological cardiac cell characteristics. This suspension culture system allows seamless transition from hPSC expansion to CM differentiation in a continuous suspension culture. It not only provides a cost and labor effective scalable process for large scale CM production, but also provides a bioreactor prototype for automation of cell manufacturing, which will accelerate the advance of hPSC research towards therapeutic applications.

摘要

为满足临床前和临床研究对大量人多能干细胞（hPSC）来源的心肌细胞（CM）的需求，建立一个强大且可扩展的CM生产分化系统至关重要。利用我们之前建立的人多能干细胞（hPSC）聚集体悬浮培养系统，我们开发了一种无基质、可扩展且符合GMP标准的方法，通过小分子调节Wnt信号通路，在悬浮培养中引导hPSC分化为CM。通过优化关键工艺参数，包括细胞聚集体大小、小分子浓度、诱导时机和搅拌速率，我们能够在高达1L的转瓶规模下，将hPSC持续分化为纯度>90%的CM，平均产量为1.5至2×10⁹个CM/L。悬浮培养产生的CM表现出典型的遗传、形态和电生理心脏细胞特征。这种悬浮培养系统允许在连续悬浮培养中从hPSC扩增无缝过渡到CM分化。它不仅为大规模CM生产提供了一种经济高效且可扩展的方法，还为细胞制造自动化提供了一个生物反应器原型，这将加速hPSC研究向治疗应用的推进。

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