人和小鼠脑源性内皮细胞的分离、体外维持和存活需要高水平的生长因子培养基。

Q4 Neuroscience
Stefania Elena Navone, Giovanni Marfia, Sara Nava, Gloria Invernici, Silvia Cristini, Sergio Balbi, Simone Sangiorgi, Emilio Ciusani, Alessandra Bosutti, Giulio Alessandri, Mark Slevin, Eugenio Agostino Parati
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引用次数: 21

摘要

背景:脑微血管内皮细胞(BMVECs)是离子和分子从血液通过血脑屏障进入脑的主要限制。已经描述了许多分离和培养bmvec的多步骤程序。然而,每种方法在培养纯度和/或低增殖率方面都存在主要限制。我们的目标是研究我们正在申请专利的培养基内皮增殖培养基(EndoPM)在分离和纯化人和小鼠bmvec方面的效率。方法:将在EndoPM中培养的BMVECs与在商业培养基EBM中培养的BMVECs进行比较。通过流式细胞分析、谱系分化、形成管状结构的能力、免疫荧光、分子分析和体内模型分析来表征培养。此外,通过监测Dextran-FITC通过Boyden室中生长的紧密单层bmvec来测定通透性。所有统计分析均采用单因素方差分析双尾检验。结果:内皮标志物(CD31、CD105、CD146、Tie-2、vWF)和代表性促血管生成基因(ICAM1、VCAM1、整合素ITGAV)的表达证实了内皮细胞在人和小鼠BMVECs中的特性,具有相当的成管能力,具有低密度脂蛋白摄取、eNOS和GLUT-1的表达。此外,细胞能够表达连接结构的标记物VE-cadherin、β-catenin和Claudin-5,并在屏障功能测试中显著降低葡聚糖的通透性。此外,在体内异种移植模型试验中,bmvec自发组织成血管样结构,并维持内皮标志物的表达。通过对bmvec和成纤维细胞在共培养条件下的增殖指数、存活指数和行为的研究,证实了EndoPM的显著作用。结论:本文描述了一种简单、可重复的方法,用于分离和扩增人和小鼠bmvec,该方法基于新配制的培养基(EndoPM),并优化了生长因子(EGF、FGF-2和牛脑提取物- bbe)的浓度。该方法可促进人类和小鼠BMVECs的分离和扩增,具有较长的寿命、良好的活力和纯度。这种方法可能为生理和病理条件下的脑血管表型和功能研究提供有效的策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Human and mouse brain-derived endothelial cells require high levels of growth factors medium for their isolation, in vitro maintenance and survival.

Human and mouse brain-derived endothelial cells require high levels of growth factors medium for their isolation, in vitro maintenance and survival.

Human and mouse brain-derived endothelial cells require high levels of growth factors medium for their isolation, in vitro maintenance and survival.

Human and mouse brain-derived endothelial cells require high levels of growth factors medium for their isolation, in vitro maintenance and survival.

Background: Brain microvascular endothelial cells (BMVECs) constitute the primary limitation for passage of ions and molecules from the blood into the brain through the blood brain barrier. Numerous multi-step procedures for isolating and culturing BMVECs have been described. However, each one demonstrates major limitations in purity of culture and/or low proliferation rate. Our goal was to study the efficiency of our pending patent medium, Endothelial Proliferation Medium (EndoPM), on the isolation and purification of human and murine BMVECs.

Methods: BMVECs, cultured in EndoPM were compared to those cultured in a commercial medium EBM. Cultures were characterized by flow cytometric analysis, lineage differentiation, the ability to form tube-like structure, immunofluorescence, molecular analyses and also in an in vivo model assay. Moreover permeability was assayed by monitoring the passage of Dextran-FITC through a tight monolayer of BMVECs grown to confluence in Boyden chambers. One way Anova two-tailed test was utilized for all statistical analyses.

Results: The properties of ECs in human and murine BMVECs is confirmed by the expression of endothelial markers (CD31, CD105, CD146, Tie-2 and vWF), of representative proangiogenic genes (ICAM1, VCAM1 and integrin ITGAV), of considerable tube-forming ability, with low-density lipoprotein uptake, eNOS and GLUT-1 expression. Furthermore cells are able to express markers of the junctional architecture as VE-cadherin, β-catenin and Claudin-5 and greatly reduce dextran permeability as barrier functional test. Moreover BMVECs spontaneously organize in vascular-like structures and maintain the expression of endothelial markers in an in vivo xenograft model assay. The significant effect of EndoPM is confirmed by the study of proliferation index, survival index and the behaviour of BMVECs and fibroblasts in co-culture conditions.

Conclusion: Herein we describe a simple and reproducible method for the isolation and expansion of human and mouse BMVECs, based on a newly formulated medium (EndoPM) with optimized concentration of growth factors (EGF, FGF-2 and Bovine Brain Extract-BBE). This procedure should facilitate the isolation and expansion of human and mouse BMVECs with extended lifetime, good viability and purity. This approach may provide an effective strategy to aid phenotypical and functional studies of brain vessels under physiological and pathological conditions.

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来源期刊
Vascular Cell
Vascular Cell Neuroscience-Neurology
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