| Generation of Functional Mouse Hippocampal Neurons
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Author:
Date:
2020-08-05
[Abstract] Primary culture of mouse hippocampal neurons is a very useful in vitro model for studying neuronal development, axonal and dendritic morphology, synaptic functions, and many other neuronal features. Here we describe a step-by-step process of generating primary neurons from mouse embryonic hippocampi (E17.5/E18.5). Hippocampal neurons generated with this protocol can be plated in different tissue culture dishes according to different experimental aims and can produce a reliable source of pure and differentiated neurons in less than one week. This protocol covers all the steps necessary for the preparation, culture and characterization of the neuronal culture, including the illustration of dissection instruments, surgical procedure for embryos’ isolation, culturing conditions and ...
[摘要] [摘要] 原代培养小鼠海马神经元是一种非常有用的体外模型用于研究神经元的发育,轴突和树突的形态,突触功能,以及许多其他神经元的特征。这里我们描述了从小鼠胚胎海马(E17.5/E18.5)产生初级神经元的一步一步的过程。根据不同的实验目的,用该方法产生的海马神经元可以在不同的组织培养皿中进行培养,并能在不到一周的时间内产生一个可靠的来源。该方案涵盖了神经元培养物的制备、培养和鉴定的所有必要步骤,包括解剖器械的说明、胚胎分离的手术程序、培养条件以及培养物纯度和分化的评估。通过分析培养6天时的钙显像动力学来评估神经元的活性。
[背景] 海马体是一个非常典型的大脑结构,对重要的大脑功能如记忆、空间导航、情绪记忆和学习至关重要。从解剖学上讲,小鼠海马体有一个清晰的C形结构,很容易定位和分离。在细胞水平上,它主要由锥体细胞组成,与其他脑区相比,中间神经元和胶质细胞较少(Kaech和Banker,2006)。因此,海马体是从野生型或基因工程小鼠模型中产生高纯度原代神经元培养物的理想区域,可用于疾病建模或研究神经元功能的多个方面,如突触传递和电生理特性、对神经毒性的敏感性,分化与衰老(;;;;)。Busche,2018Koyama和Ikegaya,2018Molnar,2011Wu等人,2019Rush等人,2020年
已经制定了许多协议,通过与神经胶质喂食器共同培养神经元来产生皮层和海马神经元(Kaech和Banker,2006),描述了用水凝胶微纤维封装的星形胶质细胞的三维神经元培养系统(Kim等人,2020年),长期向培养基中补充生长因子神经元培养(Ray ...
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| Investigating Neural Stem Cell and Glioma Stem Cell Self-renewal Potential Using Extreme Limiting Dilution Analysis (ELDA)
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Author:
Date:
2018-09-05
[Abstract] Glioma stem cells (GSC) grown as neurospheres exhibit similar characteristics to neural stem cells (NSC) grown as neurospheres, including the ability to self-renew and differentiate. GSCs are thought to play a role in cancer initiation and progression. Self-renewal potential of GSCs is thought to reflect many characteristics associated with malignancy, including tumor recurrence following cytotoxic therapy due to their proliferative dormancy and capacity to allow for the development of resistant tumor cell sub-clones due to mutations acquired during their differentiation. Here, we demonstrate that using extreme limiting dilution analysis (ELDA), subtle differences in the frequency of sphere-forming potential between PI3K-mutant oncogenic NSCs and non-oncogenic NSCs can be measured, in ...
[摘要] 作为神经球生长的神经胶质干细胞(GSC)表现出与作为神经球生长的神经干细胞(NSC)相似的特征,包括自我更新和分化的能力。 GSC被认为在癌症的发生和发展中起作用。 GSC的自我更新潜力被认为反映了与恶性肿瘤相关的许多特征,包括细胞毒性治疗后的肿瘤复发,这是由于它们的增殖性休眠和由于在其分化期间获得的突变而允许产生抗性肿瘤细胞亚克隆的能力。在这里,我们证明使用极限稀释分析(ELDA),可以测量PI3K-突变致癌NSCs和非致癌NSCs之间的球形成潜力频率的细微差异体外。我们进一步展示了ELDA如何在强制分化之前和之后用于细胞,以放大突变体和对照NSCs之间的球形成潜力的固有差异。最终,ELDA利用单个或少数种子干细胞自我更新,分裂和形成神经球的能力差异。重要的是,该测定还允许在不同条件下在遗传上不同的细胞之间或相同细胞之间进行比较,其中可以测试靶特异性药物或其他新型癌症干细胞疗法的影响。
【背景】胶质母细胞瘤(GBM)是最常见的脑癌之一,预后极差(Kaye和Morokoff,2014)。 ...
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