生后小鼠皮层神经元和海马神经元活体培养的方法

Ferass M. Sammoura , Dina Popova , Ayeshia Morris , Ronald P. Hart , Jason R. Richardson
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引用次数: 1

摘要

原代神经元培养已被证明是研究神经科学机制的有力工具。复制高质量的存活神经元培养物在技术上具有挑战性且成本高昂。没有经验或设备来制备原代神经元培养物的实验室可能难以为实验生产一致的培养物。先前已经表明,大鼠胚胎海马培养物可以从生产它们的实验室运来。在这里,我们表明,该程序的变体允许使用标准商业快递运送出生后的小鼠海马和皮层初级神经元培养物。我们还表明,运输后,初级神经元是可行的,表达突触标记物,并表现出生理活性,使其成为永生细胞系的相关模型。这项技术的许多应用包括在一个实验室中从转基因小鼠系中制备培养的神经元,并与远方的合作者共享,从而减少变异性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Methods for shipping live primary cortical and hippocampal neuron cultures from postnatal mice

Methods for shipping live primary cortical and hippocampal neuron cultures from postnatal mice

Primary neuronal cultures have proven to be a powerful tool for studying mechanisms in neuroscience. It is technically challenging and expensive to reproduce high quality viable neuronal cultures. Laboratories that are not experienced or equipped to prepare primary neuron cultures may have difficulty producing consistent cultures for experiments. It has previously been shown that live rat embryonic hippocampal cultures can be shipped from laboratories that produce them. Here, we show that variations to this procedure allow for shipping postnatal mouse cultures of hippocampal and cortical primary neurons using standard commercial couriers. We also show that after shipping, primary neurons are viable, express synaptic markers, and demonstrate physiological activity, making them relevant models over immortalized cell lines. Among the many applications of this technique would be the preparation of cultured neurons from transgenic mouse lines in one laboratory and sharing them with distant collaborators, reducing variability.

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