Electroporation: A Sustainable and Cell Biology Preserving Cell Labeling Method for Adipogenous Mesenchymal Stem Cells.

Q2 Biochemistry, Genetics and Molecular Biology BioResearch Open Access Pub Date : 2019-03-29 DOI:10.1089/biores.2019.0001
Kathrin von der Haar, Rebecca Jonczyk, Antonina Lavrentieva, Birgit Weyand, Peter Vogt, André Jochums, Frank Stahl, Thomas Scheper, Cornelia A Blume
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引用次数: 7

Abstract

Human mesenchymal stem cells derived from adipose tissue (AD-hMSCs) represent a promising source for tissue engineering and are already widely used in cell therapeutic clinical trials. Until today, an efficient and sustainable cell labeling system for cell tracking does not exist. We evaluated transient transfection through electroporation for cell labeling and compared it with lentiviral transduction for AD-hMSCs. In addition, we tested whether nonsense DNA or a reporter gene such as enhanced green fluorescent protein (EGFP) is the more suitable label for AD-hMSCs. Using electroporation, the transfection efficiency reached a maximal level of 44.6 ± 1.1% EGFP-positive cells after selective and expansive cultivation of the mixed MSC population, and was 44.5 ± 1.4% after gene transfer with Cyanin3-marked nonsense-label DNA, which remained stable during 2 weeks of nonselective cultivation (37.2 ± 4.7% positive AD-hMSCs). Electroporation with both nonsense DNA and pEGFP-N1 led to a slight growth retardation of 45.2% and 59.1%, respectively. EGFP-transfected or transduced AD-hMSCs showed a limited adipogenic and osteogenic differentiation capacity, whereas it was almost unaffected in cells electroporated with the nonsense-label DNA. The nonsense DNA was detectable through quantitative real-time polymerase chain reaction for at least 5 weeks/10 passages and in differentiated AD-hMSCs. EGFP-labeled cells were trackable for 24 h in vitro and served as testing cells with new materials for dental implants for 7 days. In contrast, lentivirally transduced AD-hMSCs showed an altered natural immune phenotype of the AD-hMSCs with lowered expression of two cell type defining surface markers (CD44 and CD73) and a relevantly decreased cell growth by 71.8% as assessed by the number of colony-forming units. We suggest electroporation with nonsense DNA as an efficient and long-lasting labeling method for AD-hMSCs with the comparably lowest negative impact on the phenotype or the differentiation capacity of the cells, which may, therefore, be suitable for tissue engineering. In contrast, EGFP transfection by electroporation is efficient but may be more suitable for cell tracking within cell therapies without MSC differentiation procedures. Since current protocols of lentiviral gene transduction include the risk of cell biological alterations, electroporation seems advantageous and sustainable enough for hMSC labeling.

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电穿孔:一种可持续的、保存细胞生物学的脂肪性间充质干细胞标记方法。
来源于脂肪组织的人间充质干细胞(AD-hMSCs)是组织工程的一个很有前途的来源,并且已经广泛用于细胞治疗临床试验。直到今天,用于细胞追踪的高效和可持续的细胞标记系统还不存在。我们评估了通过电穿孔进行细胞标记的瞬时转染,并将其与AD hMSCs的慢病毒转导进行了比较。此外,我们测试了无义DNA或报告基因(如增强型绿色荧光蛋白(EGFP))是否是AD hMSCs更合适的标记。使用电穿孔,转染效率达到44.6的最大水平 ± 混合MSC群体的选择性和扩大培养后,1.1%的EGFP阳性细胞,为44.5 ± 用Cyani3标记的无义标记DNA进行基因转移后1.4%,该标记DNA在2周的非选择性培养中保持稳定(37.2 ± 4.7%阳性AD-hMSC)。用无义DNA和pEGFP-N1电穿孔分别导致45.2%和59.1%的轻微生长迟缓。EGFP转染或转导的AD hMSCs显示出有限的成脂和成骨分化能力,而在用无义标记DNA电穿孔的细胞中几乎不受影响。无义DNA可通过定量实时聚合酶链反应检测至少5周/10代,并在分化的AD hMSCs中检测到。EGFP标记的细胞可追踪24 h,并用新材料作为测试细胞用于种植牙7天。相反,慢病毒转导的AD hMSC显示出AD hMSC的自然免疫表型改变,两种细胞类型定义表面标记物(CD44和CD73)的表达降低,并且通过集落形成单位的数量评估,细胞生长相应地降低了71.8%。我们建议用无义DNA电穿孔作为AD hMSCs的一种有效和持久的标记方法,对细胞的表型或分化能力的负面影响相对最低,因此,这可能适用于组织工程。相反,通过电穿孔的EGFP转染是有效的,但可能更适合在没有MSC分化程序的细胞治疗中进行细胞追踪。由于目前慢病毒基因转导的方案包括细胞生物学改变的风险,电穿孔似乎对hMSC标记足够有利和可持续。
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来源期刊
BioResearch Open Access
BioResearch Open Access Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)
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期刊介绍: BioResearch Open Access is a high-quality open access journal providing peer-reviewed research on a broad range of scientific topics, including molecular and cellular biology, tissue engineering, regenerative medicine, stem cells, gene therapy, systems biology, genetics, virology, and neuroscience. The Journal publishes basic science and translational research in the form of original research articles, comprehensive review articles, mini-reviews, rapid communications, brief reports, technology reports, hypothesis articles, perspectives, and letters to the editor.
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