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本文引用的文献

1
Milk MicroRNAs in Health and Disease.健康与疾病中的牛奶微小RNA
Compr Rev Food Sci Food Saf. 2019 May;18(3):703-722. doi: 10.1111/1541-4337.12424. Epub 2019 Mar 10.
2
Complexity of the microRNA transcriptome of cow milk and milk-derived extracellular vesicles isolated via differential ultracentrifugation.通过差速超速离心法分离的牛奶和乳源性细胞外囊泡中 microRNA 转录组的复杂性。
J Dairy Sci. 2020 Jan;103(1):16-29. doi: 10.3168/jds.2019-16880. Epub 2019 Oct 31.
3
Concentrates of two subsets of extracellular vesicles from cow's milk modulate symptoms and inflammation in experimental colitis.牛奶中两种细胞外囊泡亚群浓缩物可调节实验性结肠炎的症状和炎症。
Sci Rep. 2019 Oct 10;9(1):14661. doi: 10.1038/s41598-019-51092-1.
4
Minimal information for studies of extracellular vesicles 2018 (MISEV2018): a position statement of the International Society for Extracellular Vesicles and update of the MISEV2014 guidelines.细胞外囊泡研究的最低限度信息2018(MISEV2018):国际细胞外囊泡协会的立场声明及MISEV2014指南的更新
J Extracell Vesicles. 2018 Nov 23;7(1):1535750. doi: 10.1080/20013078.2018.1535750. eCollection 2018.
5
Tangential Flow Filtration for Highly Efficient Concentration of Extracellular Vesicles from Large Volumes of Fluid.用于从大量液体中高效浓缩细胞外囊泡的切向流过滤
Cells. 2018 Dec 16;7(12):273. doi: 10.3390/cells7120273.
6
Identification of protein markers for extracellular vesicle (EV) subsets in cow's milk.鉴定牛奶中外泌体(EV)亚群的蛋白标志物。
J Proteomics. 2019 Feb 10;192:78-88. doi: 10.1016/j.jprot.2018.08.010. Epub 2018 Aug 25.
7
A subset of extracellular vesicles carries the bulk of microRNAs in commercial dairy cow's milk.细胞外囊泡的一个亚群携带了商业奶牛牛奶中大部分的微小RNA。
J Extracell Vesicles. 2017 Nov 21;6(1):1401897. doi: 10.1080/20013078.2017.1401897. eCollection 2017.
8
Biocompatibility of highly purified bovine milk-derived extracellular vesicles.高纯度牛乳源细胞外囊泡的生物相容性
J Extracell Vesicles. 2018 Feb 21;7(1):1440132. doi: 10.1080/20013078.2018.1440132. eCollection 2018.
9
Comparison of Commercially Available Blood Collection Tubes Containing Sodium Citrate and Hirudin in Platelet Aggregation Testing.含柠檬酸钠和水蛭素的市售采血管在血小板聚集试验中的比较
Med Sci Monit Basic Res. 2017 Jul 27;23:264-269. doi: 10.12659/msmbr.905246.
10
Pellet-free isolation of human and bovine milk extracellular vesicles by size-exclusion chromatography.通过尺寸排阻色谱法无颗粒分离人乳和牛乳细胞外囊泡。
J Extracell Vesicles. 2017 Mar 15;6(1):1294340. doi: 10.1080/20013078.2017.1294340. eCollection 2017.

使用柠檬酸钠和差速超速离心法从牛乳中分离多种细胞外囊泡亚群,包括外泌体和膜囊泡。

Isolating Multiple Extracellular Vesicles Subsets, Including Exosomes and Membrane Vesicles, from Bovine Milk Using Sodium Citrate and Differential Ultracentrifugation.

作者信息

Benmoussa Abderrahim, Michel Sara, Gilbert Caroline, Provost Patrick

机构信息

CHUQ Research Center/CHUL Pavilion, 2705 Blvd Laurier, Quebec, QC, G1V 4G2, Canada, Department of Microbiology, Infectious Diseases and Immunology and Faculty of Medicine, Université Laval, Quebec, QC, G1V 0A6, Canada.

出版信息

Bio Protoc. 2020 Jun 5;10(11):e3636. doi: 10.21769/BioProtoc.3636.

DOI:10.21769/BioProtoc.3636
PMID:33659307
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7842771/
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 depth their morphology, protein content and small RNA enrichment patterns. We were also able to describe their biological function in a mouse model of intestinal inflammation. We, hereby, detail the differential ultracentrifugation procedure that leads to high quantify, medium specificity, isolation of different milk EV subsets from the same sample. More specifically, we highlight the use of sodium citrate as a standardized approach to isolate and study milk EVs and its potential for isolation techniques other than differential ultracentrifugation.

摘要

牛奶是一种复杂的液体,含有多种蛋白质和细胞外囊泡(EVs)。一些蛋白质会与EVs混合,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EVs相当,因此可能会与EVs一起被共分离出来。影响牛奶的初步步骤对于EVs的分离至关重要,并会影响分离出的EVs的纯度和丰度。在我们之前关于牛奶EVs的研究过程中,我们发现柠檬酸钠(终浓度1%),一种能够将酪蛋白胶束分解成40纳米单体的生物相容性试剂,可以在酪蛋白或其他污染蛋白共沉淀较少的情况下分离出大量的EVs。使用该方案,我们成功分离了不同的EV亚群,深入表征了它们的形态、蛋白质含量和小RNA富集模式。我们还能够在肠道炎症小鼠模型中描述它们的生物学功能。在此,我们详细介绍了差速超速离心程序,该程序可从同一样本中高产量、中等特异性地分离不同的牛奶EV亚群。更具体地说,我们强调使用柠檬酸钠作为分离和研究牛奶EVs的标准化方法,以及它在差速超速离心以外的分离技术中的应用潜力。