Comparative Analysis of Fluorescent Labeling Techniques for Tracking Canine Amniotic Stem Cells.

IF 2.7 4区医学 Q3 CELL & TISSUE ENGINEERING

Tissue engineering. Part C, Methods Pub Date : 2024-04-01 Epub Date: 2024-03-20 DOI:10.1089/ten.TEC.2023.0286

Andressa Valim Parca, Naira Caroline Godoy Pieri, Paulo Fantinato Neto, Fabiana Fernandes Bressan, Carlos Eduardo Ambrósio, Daniele Dos Santos Martins

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引用次数: 0

Abstract

The utmost aim of regenerative medicine is to promote the regeneration of injured tissues using stem cells. Amniotic mesenchymal stem cells (AmMSCs) have been used in several studies mainly because of their easy isolation from amniotic tissue postpartum and immunomodulatory and angiogenic properties and the low level of rejection. These cells share characteristics of both embryonic/fetal and adult stem cells and are particularly advantageous because they do not trigger tumorigenic activity when injected into immunocompromised animals. The large-scale use of AmMSCs for cellular therapies would greatly benefit from fluorescence labeling studies to validate their tracking in future therapies. This study evaluated the fluorophore positivity, fluorescence intensity, and longevity of canine AmMSCs. For this purpose, canine AmMSCs from the GDTI/USP biobank were submitted to three labeling conditions, two commercial fluorophores [CellTrace CFSE Cell Proliferation kit - CTrace, and CellTracker Green CMFDA - CTracker (CellTracker Green CMFDA, CT, #C2925, Molecular Probes^®; Life Technologies)] and green fluorescent protein (GFP) expression after lentiviral transduction, to select the most suitable tracer in terms of adequate persistence and easy handling and analysis that could be used in studies of domestic animals. Fluorescence was detected in all groups; however, the patterns were different. Specifically, CTrace and CTracker fluorescence was detected 6 h after labeling, while GFP was visualized no earlier than 48 h after transduction. Flow cytometry analysis revealed more than 70% of positive cells on day 7 in the CTrace and CTracker groups, while fluorescence decreased significantly to 10% or less on day 20. Variations between repetitions were observed in the GFP group under the present conditions. Our results showed earlier fluorescence detection and more uniform results across repetitions for the commercial fluorophores. In contrast, fluorescence persisted for more extended periods in the GFP group. These results indicate a promising direction for assessing the roles of canine AmMSCs in regenerative medicine without genomic integration.

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用于追踪犬羊膜干细胞的荧光标记技术比较分析

再生医学的最高目标是利用干细胞促进受伤组织的再生。羊膜间充质干细胞（AmMSCs）已被用于多项研究，主要是因为它们易于从产后羊膜组织中分离出来，具有免疫调节和血管生成特性，而且排斥反应小。这些细胞具有胚胎/胎儿干细胞和成体干细胞的共同特点，尤其是在注射到免疫功能低下的动物体内时不会引发肿瘤活性。大规模使用AmMSCs进行细胞疗法将大大受益于荧光标记研究，以验证其在未来疗法中的追踪。本研究评估了犬 AmMSCs 的荧光团阳性度、荧光强度和寿命。为此，对来自 GDTI/USP 生物库的犬 AmMSCs 采用了三种标记条件、两种商用荧光团 [CellTrace CFSE 细胞增殖试剂盒 - CTrace 和 CellTracker Green CMFDA - CTracker（CellTracker Green CMFDA, CT, #C2925、Molecular Probes®, Life Technologies）]和慢病毒转导后的绿色荧光蛋白（GFP）表达，以选择最适合家养动物研究的、具有足够持久性且易于处理和分析的示踪剂。所有组别都检测到了荧光，但荧光模式不同。具体来说，CTrace 和 CTracker 荧光是在标记后 6 小时检测到的，而 GFP 是在转导后 48 小时内检测到的。流式细胞术分析表明，在第 7 天，CTrace 和 CTracker 组有超过 70% 的阳性细胞，而在第 20 天，荧光显著减少到 10% 或更少。在目前的条件下，GFP 组的重复次数出现了变化。我们的结果显示，商用荧光团的荧光检测时间更早，重复检测的结果也更一致。另一方面，GFP 组的荧光持续时间更长。这些结果为评估犬AmMSCs在再生医学中的作用指明了方向，而无需进行基因组整合。

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来源期刊

Tissue engineering. Part C, Methods Medicine-Medicine (miscellaneous)

CiteScore

5.10

自引率

3.30%

发文量

136

期刊介绍： Tissue Engineering is the preeminent, biomedical journal advancing the field with cutting-edge research and applications that repair or regenerate portions or whole tissues. This multidisciplinary journal brings together the principles of engineering and life sciences in the creation of artificial tissues and regenerative medicine. Tissue Engineering is divided into three parts, providing a central forum for groundbreaking scientific research and developments of clinical applications from leading experts in the field that will enable the functional replacement of tissues. Tissue Engineering Methods (Part C) presents innovative tools and assays in scaffold development, stem cells and biologically active molecules to advance the field and to support clinical translation. Part C publishes monthly.