Eid Lara, Parent Martin
Centre de recherche de l'Institut universitaire en santé mentale de Québec, Department of Psychiatry and Neuroscience, Université Laval; Centre de recherche du CHU Sainte-Justine;
Centre de recherche de l'Institut universitaire en santé mentale de Québec, Department of Psychiatry and Neuroscience, Université Laval.
J Vis Exp. 2017 Apr 3(122):55397. doi: 10.3791/55397.
Despite all the technological advances at the light microscopy level, electron microscopy remains the only tool in neuroscience to examine and characterize ultrastructural and morphological details of neurons, such as synaptic contacts. Good preservation of brain tissue for electron microscopy can be obtained by rigorous cryo-fixation methods, but these techniques are rather costly and limit the use of immunolabeling, which is crucial to understand the connectivity of identified neuronal systems. Freeze-substitution methods have been developed to allow the combination of cryo-fixation with immunolabeling. However, the reproducibility of these methodological approaches usually relies on costly freezing devices. Moreover, achieving reliable results with this technique is very time-consuming and skill-challenging. Hence, the traditional chemically fixed brain, particularly with acrolein fixative, remains a time-efficient and low-cost method to combine electron microscopy with immunohistochemistry. Here, we provide a reliable experimental protocol using chemical acrolein fixation that leads to the preservation of primate brain tissue and is compatible with pre-embedding immunohistochemistry and transmission electron microscopic examination.
尽管在光学显微镜水平上有诸多技术进步,但电子显微镜仍是神经科学中用于检查和表征神经元超微结构及形态细节(如突触连接)的唯一工具。通过严格的冷冻固定方法可实现用于电子显微镜检查的脑组织的良好保存,但这些技术成本颇高,且限制了免疫标记的应用,而免疫标记对于理解特定神经元系统的连接性至关重要。已开发出冷冻置换方法,以便将冷冻固定与免疫标记相结合。然而,这些方法的可重复性通常依赖于昂贵的冷冻设备。此外,用该技术获得可靠结果非常耗时且对技术要求很高。因此,传统的化学固定脑,尤其是用丙烯醛固定剂,仍然是一种将电子显微镜与免疫组织化学相结合的省时且低成本的方法。在此,我们提供一种使用化学丙烯醛固定的可靠实验方案,该方案可实现灵长类脑组织的保存,并与包埋前免疫组织化学和透射电子显微镜检查兼容。