| Isolation of Extracellular Vesicles Derived from Mesenchymal Stromal Cells by Ultracentrifugation
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Author:
Date:
2020-12-20
[Abstract] Extracellular vesicles (EVs) are a heterogeneous group of membranous vesicles that differ on their biogenesis and release pathways, such as exosomes, microvesicles and apoptotic bodies. They are involved in cell-to-cell communication delivering signal molecules (proteins, nucleic acids, lipids, etc.) that can regulate different physiological processes, as well as the development and progression of several diseases. There are different methods and commercial kits to isolate EVs and depending on the methodology one could obtain EVs with different degrees of efficiency, purity and it can be more or less time-consuming. Then, the choice has to be according to the different advantages and disadvantages, and their use for downstream applications. Here, we describe the EVs isolation ...
[摘要] [摘要]细胞外囊泡(EV多个),关于它们的生物合成和释放途径不同膜囊泡的一组异质小号,诸如外来体,微泡和凋亡小体。它们参与细胞间传递信号的信号分子(蛋白质,核酸,脂质等),这些信号分子可调节不同的生理过程以及几种疾病的发生和发展。分离电动汽车有不同的方法和商业工具包,根据方法学的不同,人们可以获得具有不同程度的效率,纯度的电动汽车,这或多或少会耗时。然后,必须根据不同的优缺点及其在下游应用中的用途进行选择。在这里,我们描述了通过超速离心从间充质基质细胞分离电动汽车的方法。可以使用通用培养基和缓冲液进行电动汽车隔离,并且仅需要分析型超速离心机即可。此外,该方法可用于获得电动车的大量再现性良好发展体外和体内实验,研究它们的生物学作用小号。
[背景]间充质干细胞(MSCs)对不同疾病的进展具有保护作用,有助于免疫调节和炎症状态(Bartholomew等,2002; Togel等,2005; Azmi等,2013; Ebrahimi等人,2013; Ben-Ami等人,2014)。它们的保护作用不仅归因于它们的转分化作用,还归因于它们的旁分泌机制,例如释放出具有免疫调节,抗炎,抗凋亡和促血管生成功能的细胞外小泡(EV)(Bruno等,2009; Camussi等)。 。,2010一个;农庄。等人,2020) ...
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| Buoyant Density Fractionation of Small Extracellular Vesicle Sub-populations Derived from Mammalian Cells
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Author:
Date:
2020-08-05
[Abstract] Small extracellular vesicles (sEVs) encompass a variety of distinct vesicles that are secreted to the extracellular space. Many methodologies currently used for EV isolation (e.g., differential ultracentrifugation concluding in a high-speed pellet, precipitation by macromolecular crowding agents or size excusion chromatography–SEC) do not fractionate distinct sEV sub-populations. Samples obtained by the aforementioned methods are usually used for characterization and physiological studies. However the fraction that contains the molecule of interest or is the carrier of a specific activity is unknown. Therefore isolating distinct sEV sub-populations is critical to understand EV function. The goal of this procedure is to purify distinct sEV sub-populations based on slight ...
[摘要] [摘要] 小细胞外小泡(sEVs)包括分泌到细胞外空间的各种不同的小泡。目前用于EV分离的许多方法(例如,高速颗粒中的差速超速离心、大分子拥挤剂沉淀或尺寸排除色谱法)没有分离不同的sEV亚群。通过上述方法获得的样品通常用于表征和生理学研究。然而,包含感兴趣分子或特定活性载体的部分是未知的。因此,分离不同的sEV亚群对于理解EV功能至关重要。该程序的目的是基于它们浮力密度的微小差异来纯化不同的sEV亚群。此外,该技术还允许从高速颗粒中共同分离的无囊泡RNA蛋白复合物中或通过使用拥挤剂来纯化sEVs。该方案描述了用于收集sEV的哺乳动物细胞的培养、sEV沉淀、sEV亚群的浮力密度分馏和sEV标记的免疫印迹。该方法可用于分离由多种哺乳动物细胞产生的不同的sEV亚群。
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| Isolating Multiple Extracellular Vesicles Subsets, Including Exosomes and Membrane Vesicles, from Bovine Milk Using Sodium Citrate and Differential Ultracentrifugation
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Author:
Date:
2020-06-05
[Abstract] Milk is a complex fluid that contains various types of proteins and extracellular vesicles (EVs). Some proteins can mingle with EVs, and interfere with their isolation. Among these proteins, caseins form micelles of a size comparable to milk EVs, and can thus be co-isolated with EVs. Preliminary steps that affect milk are crucial for EV isolation and impact the purity and abundance of isolated EVs. In the course of our previous works on cow’s milk EVs, we found that sodium citrate (1% final), which is a biocompatible reagent capable of breaking down casein micelles into 40-nm monomers, allowed the isolation of high quantities of EVs with low coprecipitation of caseins or other contaminating proteins. Using this protocol, we successfully separated different EV subsets, characterized in ...
[摘要] [摘要 ] 牛奶是一种复杂的流体,其中包含各种类型的蛋白质和细胞外囊泡(EVs),有些蛋白质会与EV混合在一起,并干扰其分离,在这些蛋白质中,酪蛋白形成的胶束大小与牛奶EV相当因此,可以将其与电动汽车共隔离。影响牛奶的初步步骤对于电动汽车的隔离,影响分离电动汽车的纯度和丰度至关重要。在我们以前对牛奶电动汽车的研究过程中,我们发现柠檬酸钠(最终含量为1% )是一种生物相容性试剂,能够将酪蛋白胶束分解为40 nm单体,可分离出大量的EV,而酪蛋白或其他污染蛋白的沉淀率却很低。 EV子集,深入表征其形态,蛋白质含量和小分子RNA富集模式。我们还能够描述其在小鼠肠道炎症模型中的生物学功能。具体来说,是从同一样品中分离出不同乳EV子集的培养基。更具体地说,我们着重介绍了使用柠檬酸钠作为标准化方法来分离和研究乳EV的方法及其在差分超速离心之外的分离技术的潜力。
[背景 ] 在我们以前的出版物(本穆萨等人。,2016 ,2017,2019b和2019c;本穆萨和普罗沃斯特,2019) ,我们强调,牛乳是包含细胞外无数的复杂流体囊泡。(EV)用的子集在这些之中,外泌体是多囊体(MVB)与细胞膜融合时释放的约100 nm囊泡,进行超速离心时,这些沉淀物的离心速度等于或高于100,000 xg (P100K,其中P代表沉淀)(Pieters 等。,2015) ...
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