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声悬浮中间充质干细胞球体的自组织和培养。

Self-organization and culture of Mesenchymal Stem Cell spheroids in acoustic levitation.

机构信息

Laboratoire de Physique et Mécanique des Milieux Hétérogènes (PMMH), UMR 7636 CNRS, ESPCI Paris, PSL, Paris Sciences et Lettres University, Sorbonne Université, Université de Paris 1, Paris, 75005, France.

Unité de Thérapie Cellulaire, APHP, Hôpital Saint-Louis, 1 avenue Claude Vellefaux, 75010, Paris, France.

出版信息

Sci Rep. 2021 Apr 16;11(1):8355. doi: 10.1038/s41598-021-87459-6.

DOI:10.1038/s41598-021-87459-6
PMID:33863936
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8052426/
Abstract

In recent years, 3D cell culture models such as spheroid or organoid technologies have known important developments. Many studies have shown that 3D cultures exhibit better biomimetic properties compared to 2D cultures. These properties are important for in-vitro modeling systems, as well as for in-vivo cell therapies and tissue engineering approaches. A reliable use of 3D cellular models still requires standardized protocols with well-controlled and reproducible parameters. To address this challenge, a robust and scaffold-free approach is proposed, which relies on multi-trap acoustic levitation. This technology is successfully applied to Mesenchymal Stem Cells (MSCs) maintained in acoustic levitation over a 24-h period. During the culture, MSCs spontaneously self-organized from cell sheets to cell spheroids with a characteristic time of about 10 h. Each acoustofluidic chip could contain up to 30 spheroids in acoustic levitation and four chips could be ran in parallel, leading to the production of 120 spheroids per experiment. Various biological characterizations showed that the cells inside the spheroids were viable, maintained the expression of their cell surface markers and had a higher differentiation capacity compared to standard 2D culture conditions. These results open the path to long-time cell culture in acoustic levitation of cell sheets or spheroids for any type of cells.

摘要

近年来,3D 细胞培养模型(如球体或类器官技术)取得了重要进展。许多研究表明,与 2D 培养相比,3D 培养具有更好的仿生特性。这些特性对于体外建模系统以及体内细胞治疗和组织工程方法都很重要。可靠地使用 3D 细胞模型仍然需要具有良好控制和可重复参数的标准化方案。为了解决这一挑战,提出了一种稳健且无支架的方法,该方法依赖于多陷阱声悬浮。该技术成功应用于在声悬浮中培养 24 小时的间充质干细胞 (MSC)。在培养过程中,MSC 自发地从细胞片层自组织成细胞球体,其特征时间约为 10 小时。每个声流控芯片可在声悬浮中包含多达 30 个球体,并且可以并行运行四个芯片,从而每个实验可产生 120 个球体。各种生物学特性表明,球体内部的细胞具有活力,保持其细胞表面标志物的表达,并具有比标准 2D 培养条件更高的分化能力。这些结果为任何类型的细胞在声悬浮中的细胞片层或球体的长时间细胞培养开辟了道路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f13/8052426/9c80aff3ef3e/41598_2021_87459_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f13/8052426/0c30004d79ae/41598_2021_87459_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f13/8052426/1327c080065d/41598_2021_87459_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f13/8052426/9c80aff3ef3e/41598_2021_87459_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f13/8052426/0c30004d79ae/41598_2021_87459_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f13/8052426/1327c080065d/41598_2021_87459_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f13/8052426/9c80aff3ef3e/41598_2021_87459_Fig3_HTML.jpg

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