Imaging Membrane Repair in Single Cells Using Correlative Light and Electron Microscopy

Q3 Biochemistry, Genetics and Molecular Biology

Current Protocols in Cell Biology Pub Date : 2018-08-07 DOI:10.1002/cpcb.55

Coralie Croissant, Flora Bouvet, Sisareuth Tan, Anthony Bouter

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引用次数: 3

Abstract

Many cells possess the ability to repair plasma membrane disruption in physiological conditions. Growing evidence indicates a correlation between membrane repair and many human diseases. For example, a negative correlation is observed in muscle where failure to reseal sarcolemma may contribute to the development of muscular dystrophies. Instead, a positive correlation is observed in cancer cells where membrane repair may be exacerbated during metastasis. Here we describe a protocol that combines laser technology for membrane damage, immunostaining with gold nanoparticles and imaging by fluorescence microscopy and transmission electron microscopy (TEM), which allows the characterization of the molecular machinery involved in membrane repair. Fluorescence microscopy enables to determine the subcellular localization of candidate proteins in damaged cells while TEM offers high-resolution ultrastructural analysis of the µm²-disruption site, which enables to decipher the membrane repair mechanism. Here we focus on the study of human skeletal muscle cells, for obvious clinical interest, but this protocol is also suitable for other cell types. © 2018 by John Wiley & Sons, Inc.

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单细胞膜修复的相关光镜和电镜成像

在生理条件下，许多细胞具有修复质膜破坏的能力。越来越多的证据表明，膜修复与许多人类疾病之间存在相关性。例如，在肌肉中观察到负相关，肌膜不能重新封闭可能导致肌肉萎缩症的发展。相反，在转移过程中膜修复可能加剧的癌细胞中观察到正相关。在这里，我们描述了一种方案，结合了激光技术对膜损伤，用金纳米粒子免疫染色和荧光显微镜和透射电子显微镜(TEM)成像，这允许表征参与膜修复的分子机制。荧光显微镜能够确定受损细胞中候选蛋白的亚细胞定位，而TEM提供了μ m²破坏位点的高分辨率超微结构分析，从而能够破译膜修复机制。这里我们重点研究人类骨骼肌细胞，有明显的临床意义，但这一方案也适用于其他细胞类型。©2018 by John Wiley &儿子,Inc。

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Current Protocols in Cell Biology Biochemistry, Genetics and Molecular Biology-Cell Biology

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期刊介绍： Developed by leading scientists in the field, Current Protocols in Cell Biology is an essential reference for researchers who study the relationship between specific molecules and genes and their location, function and structure at the cellular level. Updated every three months in all formats, CPCB is constantly evolving to keep pace with the very latest discoveries and developments.