Three-dimensional ultrastructure analysis of organelles in injured motor neuron

IF 1.2 4区 医学 Q3 ANATOMY & MORPHOLOGY Anatomical Science International Pub Date : 2023-04-18 DOI:10.1007/s12565-023-00720-y
Hiromi Tamada
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引用次数: 1

Abstract

Morphological analysis of organelles is one of the important clues for understanding the cellular conditions and mechanisms occurring in cells. In particular, nanoscale information within crowded intracellular organelles of tissues provide more direct implications when compared to analyses of cells in culture or isolation. However, there are some difficulties in detecting individual shape using light microscopy, including super-resolution microscopy. Transmission electron microscopy (TEM), wherein the ultrastructure can be imaged at the membrane level, cannot determine the whole structure, and analyze it quantitatively. Volume EM, such as focused ion beam/scanning electron microscopy (FIB/SEM), can be a powerful tool to explore the details of three-dimensional ultrastructures even within a certain volume, and to measure several parameters from them. In this review, the advantages of FIB/SEM analysis in organelle studies are highlighted along with the introduction of mitochondrial analysis in injured motor neurons. This would aid in understanding the morphological details of mitochondria, especially those distributed in the cell bodies as well as in the axon initial segment (AIS) in mouse tissues. These regions have not been explored thus far due to the difficulties encountered in accessing their images by conditional microscopies. Some mechanisms of nerve regeneration have also been discussed with reference to the obtained findings. Finally, future perspectives on FIB/SEM are introduced. The combination of biochemical and genetic understanding of organelle structures and a nanoscale understanding of their three-dimensional distribution and morphology will help to match achievements in genomics and structural biology.

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运动神经元损伤细胞器的三维超微结构分析
细胞器的形态学分析是了解细胞中发生的细胞条件和机制的重要线索之一。特别是,与培养或分离中的细胞分析相比,组织拥挤的细胞内细胞器内的纳米级信息提供了更直接的含义。然而,使用光学显微镜(包括超分辨率显微镜)检测个体形状存在一些困难。透射电子显微镜(TEM)可以在膜水平上对超微结构进行成像,但不能确定整个结构并对其进行定量分析。体积EM,如聚焦离子束/扫描电子显微镜(FIB/SEM),可以成为一种强大的工具,即使在一定体积内也可以探索三维超结构的细节,并从中测量几个参数。在这篇综述中,随着线粒体分析在损伤的运动神经元中的引入,FIB/SEM分析在细胞器研究中的优势得到了强调。这将有助于理解线粒体的形态细节,特别是那些分布在细胞体以及小鼠组织中轴突起始段(AIS)中的线粒体。到目前为止,由于通过条件显微镜获取这些区域的图像时遇到困难,尚未对其进行探索。一些神经再生的机制也已经参考所获得的发现进行了讨论。最后介绍了FIB/SEM的发展前景。对细胞器结构的生物化学和遗传学理解以及对其三维分布和形态的纳米级理解相结合,将有助于匹配基因组学和结构生物学的成就。
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来源期刊
Anatomical Science International
Anatomical Science International 医学-解剖学与形态学
CiteScore
2.80
自引率
8.30%
发文量
50
审稿时长
>12 weeks
期刊介绍: The official English journal of the Japanese Association of Anatomists, Anatomical Science International (formerly titled Kaibogaku Zasshi) publishes original research articles dealing with morphological sciences. Coverage in the journal includes molecular, cellular, histological and gross anatomical studies on humans and on normal and experimental animals, as well as functional morphological, biochemical, physiological and behavioral studies if they include morphological analysis.
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