Size, Shape, and Distribution of Multivesicular Bodies in the Juvenile Rat Somatosensory Cortex: A 3D Electron Microscopy Study

M. Turégano-Lopez, A. Santuy, J. DeFelipe, Á. Merchán-Pérez
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引用次数: 6

Abstract

Abstract Multivesicular bodies (MVBs) are membrane-bound organelles that belong to the endosomal pathway. They participate in the transport, sorting, storage, recycling, degradation, and release of multiple substances. They interchange cargo with other organelles and participate in their renovation and degradation. We have used focused ion beam milling and scanning electron microscopy (FIB-SEM) to obtain stacks of serial sections from the neuropil of the somatosensory cortex of the juvenile rat. Using dedicated software, we have 3D-reconstructed 1618 MVBs. The mean density of MVBs was 0.21 per cubic micron. They were unequally distributed between dendrites (39.14%), axons (18.16%), and nonsynaptic cell processes (42.70%). About one out of five MVBs (18.16%) were docked on mitochondria, representing the process by which the endosomal pathway participates in mitochondrial maintenance. Other features of MVBs, such as the presence of tubular protrusions (6.66%) or clathrin coats (19.74%) can also be interpreted in functional terms, since both are typical of early endosomes. The sizes of MVBs follow a lognormal distribution, with differences across cortical layers and cellular compartments. The mean volume of dendritic MVBs is more than twice as large as the volume of axonic MVBs. In layer I, they are smaller, on average, than in the other layers.
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幼鼠体感觉皮层中多泡体的大小、形状和分布:三维电子显微镜研究
多泡体(multivesular bodies, MVBs)是属于内体途径的膜结合细胞器。他们参与多种物质的运输、分类、储存、回收、降解和释放。它们与其他细胞器交换货物并参与它们的更新和降解。我们使用聚焦离子束铣削和扫描电子显微镜(FIB-SEM)从幼年大鼠的体感觉皮层的神经pil中获得了一系列的切片。使用专用软件,我们对1618个MVBs进行了3d重建。MVBs的平均密度为0.21 /立方微米。它们不均匀地分布在树突(39.14%)、轴突(18.16%)和非突触细胞突(42.70%)之间。大约五分之一的MVBs(18.16%)停靠在线粒体上,这代表了内体途径参与线粒体维持的过程。MVBs的其他特征,如管状突起(6.66%)或网格蛋白外壳(19.74%)的存在也可以从功能角度解释,因为这两者都是早期核内体的典型特征。MVBs的大小遵循对数正态分布,在皮质层和细胞区室之间存在差异。树突MVBs的平均体积是轴突MVBs体积的两倍多。在第一层中,它们平均比其他层要小。
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