| Zebrafish Embryo Xenograft and Metastasis Assay
|
|
Author:
Date:
2018-09-20
[Abstract] Xenograft models, and in particular the mouse xenograft model, where human cancer cells are transplanted into immunocompromised mice, have been used extensively in cancer studies. Although these models have contributed enormously to our understanding of cancer biology, the zebrafish xenograft model offers several advantages over the mouse model. Zebrafish embryos can be easily cultured in large quantities, are small and easy to handle, making it possible to use a high number of embryos for each experimental condition. Young embryos lack an efficient immune system. Therefore the injected cancer cells are not rejected, and the formation of primary tumors and micrometastases is rapid. Transparency of the embryos enables imaging of primary tumors and metastases in an intact and living embryo. ...
[摘要] 异种移植模型,特别是小鼠异种移植模型,其中人癌细胞被移植到免疫受损小鼠中,已广泛用于癌症研究。尽管这些模型对我们对癌症生物学的理解做出了巨大贡献,但斑马鱼异种移植模型与鼠标模型相比具有多种优势。斑马鱼胚胎可以很容易地大量培养,体积小且易于处理,因此可以在每种实验条件下使用大量胚胎。年轻的胚胎缺乏有效的免疫系统。因此,注射的癌细胞不被排斥,并且原发性肿瘤和微转移的形成是快速的。胚胎的透明度使得能够在完整和活的胚胎中对原发性肿瘤和转移瘤进行成像。在这里,我们描述了一种方法,其中表达GFP的肿瘤细胞被注射到斑马鱼胚胎的心包空间。在注射后4天,对胚胎成像并分析原发性肿瘤和远端微转移的形成。
【背景】 斑马鱼( Danio rerio )是一种小型淡水鱼,不仅在发育生物学中,而且在生物医学中越来越受欢迎。快速发展的领域之一是使用斑马鱼作为癌症生物学研究的模型。斑马鱼高效可靠地交配,可以产生大量小,透明,外部发育的后代,可以在例如,多孔板中轻松培养(White et al。 >,2013)。有趣的是,人类肿瘤细胞可以植入斑马鱼胚胎中,许多异种移植物能够通过在胚胎中生长,侵入和转移来忠实地重演它们的恶性行为(Lee et al。,2005; Nicoli et al。,2007; Chapman et ...
|
|
|
| Staining of Membrane Receptors with Fluorescently-labeled DNA Aptamers for Super-resolution Imaging
|
|
Author:
Date:
2017-09-05
[Abstract] One of the most prominent applications of fluorescent super-resolution microscopy is the study of nanodomain arrangements of receptors and the endocytic pathway. Staining methods are becoming crucial for answering questions on the nanoscale, therefore, the use of small and monovalent affinity probes is of great interest in super-resolution microscopy with biological samples. One kind of affinity probe is the aptamer. Aptamers are single DNA or RNA sequences that bind with high affinity to their targets and due to their small size they are able to (i) place the fluorophore in close proximity to the protein of interest and (ii) bind to most of the protein of interest overcoming the steric hindrance effect, resulting in better staining density. Here we describe a detailed protocol with which ...
[摘要] 荧光超分辨率显微镜的最突出的应用之一是研究纳米结构的受体和内吞途径。染色方法对于回答纳米尺度的问题变得至关重要,因此,使用小型和单价亲和探针在具有生物样品的超分辨显微镜中是非常有意义的。一种亲和力探针是适体。适配体是以高亲和力结合其靶标的单个DNA或RNA序列,并且由于它们的小尺寸,它们能够(i)将荧光团置于感兴趣的蛋白质附近,并且(ii)与大部分蛋白质结合有利于克服空间位阻效应,导致更好的染色密度。在这里,我们描述一个详细的协议,使用适配体染色活细胞,并用刺激的排放消耗(STED)显微镜对其进行成像。在该方案中,染色用市售适用于靶向表皮生长因子受体(EGFR),人表皮生长因子受体2(HER2或ErbB2)和ephrin-A受体2(Epha2)的适体进行。由于适配体可与大部分受欢迎的荧光团偶联,因此我们认为本文介绍的方法可扩展到目前超分辨率显微镜技术的绝大多数。
【背景】超分辨率成像技术的最新进展已经导致搜索更精确的方法来标记细胞元件。衍射无限成像仪器提供优异的分辨率,然而标准样品染色方法,如免疫染色,缺乏检测细胞元素所必需的精度。由于它们的大尺寸(长度约15nm)和高分子量(〜150kDa),抗体可以很差地渗透到生物样品中。另外,一次/二次抗体复合物将荧光团放置在远离靶的大约25nm处,从而损害检测精度。此外,由于初级/二级抗体复合物的大尺寸,由于空间位阻(Fornasiero和Opazo,2015),较小部分的靶标可以被标记。这导致较低的标记密度,这是超分辨率显微镜的关键参数,特别是在识别和描述纳米结构时。为了克服这些问题,近年来已经测试了与单个靶(单价)结合的小的亲和力探针,如适体,亲和体或纳米体系(Rothbauer ...
|
|
|
| Mouse Embryonic Stem Cell Maintenance for Differentiation
|
|
Author:
Date:
2011-10-20
[Abstract] Embryonic stem cells are derived from inner cell mass of an embryo that can differentiate into every cell type in the body. Clinically, cultured red blood cell supply is of great interest. However, some of the hurdles need to be overcome. This protocol describes a protocol to maintain mouse stem cells that will be used for hematopoietic lineage differentiation assay in the lab.
[摘要] 胚胎干细胞衍生自胚胎的内细胞团,其可以分化为体内的每种细胞类型。 临床上,培养的红细胞供应是非常有趣的。 然而,一些障碍需要克服。 该协议描述了用于维持小鼠干细胞的方案,其将用于实验室中的造血谱系分化测定。
|
|
|