通过生物物理特性测量对间充质干细胞球体进行无标记活表征

Q1 Biochemistry, Genetics and Molecular Biology Advances in biological regulation Pub Date : 2024-09-12 DOI:10.1016/j.jbior.2024.101052
P. Marrazzo , A. Sargenti , R. Costa , F. Paris , J. Peca , D. Piras , V. Pizzuti , S. Pasqua , F. Alviano
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引用次数: 0

摘要

三维(3D)细胞培养已成为干细胞领域的一种综合方法,间充质基质干细胞(MSCs)可用于在体外生成称为间充质干细胞球状聚集体(MSC-Spheroids,MSph)的球状聚集体。MSph是干细胞的漂浮团块,类似于文献中所说的骨髓来源的 "间质球"。尽管MSph具有间充质干细胞的共同特性,但根据细胞类型及其组织来源,MSph的形态和压实程度可能会发生变化,从而对这种细胞模型造成限制。因此,在培养过程中,干细胞功能和存活率的变化,以及在某些实验方案中比较MSph的适用性,都会受到质量密度等球状生物物理内在特性的影响。为了研究这一局限性并为研究人员提供一种新方法,研究人员将质量密度、重量和大小评估与ATP测量的活力测定相结合,对七种不同组织来源的MSph进行了比较。在传统静态条件下培养的 MSph 的活力随着培养天数的增加而下降,而不同类型细胞的质量密度则呈现出不同的趋势。此外,用无毒浓度的天然复合细胞调节剂(如 Plumbagin)处理 MSph,可改变所选细胞类型的质量密度,从而证实了生物物理方法在监测 MSph 处理后变化方面的功效。研究结果鼓励在MSph形成后的早期培养阶段使用MSph,以确保其活力和干细胞表型的可能保留。
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Label-free live characterization of mesenchymal stem cell spheroids by biophysical properties measurement

Three-dimensional (3D) cell culture has become a consolidated method in the stem cell field, where mesenchymal stromal stem cells (MSCs) can be used to generate in vitro spheroid aggregates called MSC-Spheroids (MSph). MSph is a floating cluster of stem cells similar to those in literature are known as bone marrow-derived “mesenspheres”. Even though MSC properties are shared by MSph, depending on the cell type and their tissue source, the morphology and degree of compaction of the MSph can be variable, creating limitations in such a cell model. Thus, during culture, a variation in stem cell functionality and viability, in addition to the suitability for comparing MSph in some experimental protocols, can be affected by spheroid biophysical intrinsic properties like mass density. To investigate this limitation and provide a new method for researchers, MSph of seven different tissue sources were compared by combining mass density, weight, and size evaluations with viability assays for ATP measurement. MSph cultured in traditional static conditions showed decreased in viability over the days of culture, while mass density exhibited different trends among cell types. Additionally, treatment of MSph with a non-toxic concentration of a natural compound cell regulator, such as plumbagin, altered the mass density of a selected cell type, thereby confirming the efficacy of the biophysical approach in monitoring MSph variability post-treatment. The results encourage using MSph in the early days of culture after their formation to ensure viability and likely retention of the stem cell phenotype.

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来源期刊
Advances in biological regulation
Advances in biological regulation Biochemistry, Genetics and Molecular Biology-Molecular Medicine
CiteScore
8.90
自引率
0.00%
发文量
41
审稿时长
17 days
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