A Simple Model to Study Mosaic Gene Expression in 3D Endothelial Spheroids.

IF 2.4 4区 医学 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS Journal of Cardiovascular Development and Disease Pub Date : 2024-10-02 DOI:10.3390/jcdd11100305
Lucinda S McRobb, Vivienne S Lee, Fahimeh Faqihi, Marcus A Stoodley
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Abstract

Aims: The goal of this study was to establish a simple model of 3D endothelial spheroids with mosaic gene expression using adeno-associated virus (AAV) transduction, with a future aim being to study the activity of post-zygotic mutations common to vascular malformations.

Methods: In this study, 96-well U-bottom plates coated with a commercial repellent were seeded with two immortalized human endothelial cell lines and aggregation monitored using standard microscopy or live-cell analysis. The eGFP expression was used to monitor the AAV transduction.

Results: HUVEC-TERT2 could not form spheroids spontaneously. The inclusion of collagen I in the growth medium could stimulate cell aggregation; however, these spheroids were not stable. In contrast, the hCMEC/D3 cells aggregated spontaneously and formed reproducible, robust 3D spheroids within 3 days, growing steadily for at least 4 weeks without the need for media refreshment. The hCMEC/D3 spheroids spontaneously developed a basement membrane, including collagen I, and expressed endothelial-specific CD31 at the spheroid surface. Serotypes AAV1 and AAV2QUADYF transduced these spheroids without toxicity and established sustained, mosaic eGFP expression.

Conclusions: In the future, this simple approach to endothelial spheroid formation combined with live-cell imaging could be used to rapidly assess the 3D phenotypes and drug and radiation sensitivities arising from mosaic mutations common to brain vascular malformations.

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研究三维内皮细胞球体内镶嵌式基因表达的简单模型
目的:本研究的目的是利用腺相关病毒(AAV)转导技术建立一个具有镶嵌基因表达的三维内皮球体的简单模型,其未来目标是研究血管畸形常见的杂交后突变的活性:在这项研究中,在涂有商用驱虫剂的 96 孔 U 底板上播种了两种永生的人类内皮细胞系,并使用标准显微镜或活体细胞分析法监测其聚集情况。eGFP 表达用于监测 AAV 转导:结果:HUVEC-TERT2 无法自发形成球体。结果:HUVEC-TERT2 无法自发形成球体,在生长培养基中加入胶原蛋白 I 可刺激细胞聚集,但这些球体并不稳定。相比之下,hCMEC/D3 细胞能自发聚集,并在 3 天内形成可重复的、稳固的三维球体,而且至少能稳定生长 4 周,无需更新培养基。hCMEC/D3 球体自发形成基底膜,包括胶原蛋白 I,并在球体表面表达内皮特异性 CD31。血清型 AAV1 和 AAV2QUADYF 转导这些球体无毒性,并建立了持续的、镶嵌式 eGFP 表达:结论:未来,这种简单的内皮球体形成方法与活细胞成像相结合,可用于快速评估脑血管畸形常见的镶嵌突变引起的三维表型以及对药物和辐射的敏感性。
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来源期刊
Journal of Cardiovascular Development and Disease
Journal of Cardiovascular Development and Disease CARDIAC & CARDIOVASCULAR SYSTEMS-
CiteScore
2.60
自引率
12.50%
发文量
381
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