Impedance-based real-time monitoring of neural stem cell differentiation

干细胞 神经干细胞 生物 神经科学 细胞分化 细胞生物学 人口 细胞 医学 遗传学 环境卫生 基因
作者
Fozia Shah,Claudia Caviglia,Kinga Zór,Marco Carminati,Giorgio Ferrari,M. Sampietro,Alberto Martínez‐Serrano,Jenny Emnéus,Arto Heiskanen
出处
期刊:Journal of electrical bioimpedance [Oslo Bioimpedance Group]
卷期号:12 (1): 34-49 被引量:2
标识
DOI:10.2478/joeb-2021-0006
摘要

Abstract We present here the first impedance-based characterization of the differentiation process of two human mesencephalic fetal neural stem lines. The two dopaminergic neural stem cell lines used in this study, Lund human mesencephalic (LUHMES) and human ventral mesencephalic (hVM1 Bcl-X L ), have been developed for the study of Parkinsonian pathogenesis and its treatment using cell replacement therapy. We show that if only relying on impedance magnitude analysis, which is by far the most usual approach in, e.g., cytotoxicity evaluation and drug screening applications, one may not be able to distinguish whether the neural stem cells in a population are proliferating or differentiating. However, the presented results highlight that equivalent circuit analysis can provide detailed information on cellular behavior, e.g. simultaneous changes in cell morphology, cell-cell contacts, and cell adhesion during formation of neural projections, which are the fundamental behavioral differences between proliferating and differentiating neural stem cells. Moreover, our work also demonstrates the sensitivity of impedance-based monitoring with capability to provide information on changes in cellular behavior in relation to proliferation and differentiation. For both of the studied cell lines, in already two days (one day after induction of differentiation) equivalent circuit analysis was able to show distinction between proliferation and differentiation conditions, which is significantly earlier than by microscopic imaging. This study demonstrates the potential of impedance-based monitoring as a technique of choice in the study of stem cell behavior, laying the foundation for screening assays to characterize stem cell lines and testing the efficacy epigenetic control.

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