人视神经脑膜细胞中的细胞间相互作用蛋白（间隙连接、紧密连接和桥粒）及水通道蛋白4

Cell-Cell Interaction Proteins (Gap Junctions, Tight Junctions, and Desmosomes) and Water Transporter Aquaporin 4 in Meningothelial Cells of the Human Optic Nerve.

作者信息

Zeleny Thi Ngoc Co, Kohler Corina, Neutzner Albert, Killer Hanspeter E, Meyer Peter

机构信息

Department of Ophthalmology, Kantonsspital Aarau, Aarau, Switzerland.

Department of Biomedicine, Ocular Pharmacology and Physiology, University Hospital Basel, Basel, Switzerland.

出版信息

Front Neurol. 2017 Jun 29;8:308. doi: 10.3389/fneur.2017.00308. eCollection 2017.

DOI:10.3389/fneur.2017.00308

PMID:28706505

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5489558/

Abstract

PURPOSE

Meningothelial cells (MECs) play a central role in the maintenance of cerebrospinal fluid (CSF) homeostasis and in physiological and pathophysiological processes within the subarachnoid space (SAS) linking them to optic nerve (ON) pathologies. Still, not much is known about their structural properties that might enable MECs to perform specific functions within the ON microenvironment.

METHODS

For closer characterization of the structural properties of the human MEC layer in the arachnoid, we performed immunohistological analyses to evaluate the presence of cell-cell interaction markers, namely, markers for tight junctions (JAM1, Occludin, and Claudin 5), gap junctions (Connexin 26 and 43), and desmosomes (Desmoplakin) as well as for water channel marker aquaporin 4 (AQP4) in retrobulbar, midorbital, and intracanalicular human ON sections.

RESULTS

MECs displayed immunopositivity for markers of tight junctions (JAM1, Occludin, and Claudin 5) and gap junctions (Connexin 26 and 43) as well as for AQP4 water channels. However, no immunopositivity was found for Desmoplakin.

CONCLUSION

MECs are connected tight junctions and gap junctions, and they possess AQP4 water channels. The presence of these proteins emphasizes the important function of MECs within the ON microenvironment as part of the meningeal barrier. Beyond this barrier function, the expression of these proteins by MECs supports a broader role of these cells in signal transduction and CSF clearance pathways within the ON microenvironment.

摘要

目的

脑膜上皮细胞（MECs）在维持脑脊液（CSF）稳态以及蛛网膜下腔（SAS）内的生理和病理生理过程中发挥核心作用，这些过程将它们与视神经（ON）病变联系起来。然而，对于它们的结构特性知之甚少，而这些特性可能使MECs能够在视神经微环境中执行特定功能。

方法

为了更深入地表征蛛网膜中人MEC层的结构特性，我们进行了免疫组织学分析，以评估细胞间相互作用标志物的存在情况，即紧密连接标志物（JAM1、闭合蛋白和Claudin 5）、缝隙连接标志物（连接蛋白26和43）、桥粒标志物（桥粒斑蛋白）以及球后、眶中及管内段人视神经切片中的水通道标志物水通道蛋白4（AQP4）。

结果

MECs对紧密连接标志物（JAM1、闭合蛋白和Claudin 5）、缝隙连接标志物（连接蛋白26和43）以及AQP4水通道呈免疫阳性。然而，未发现桥粒斑蛋白的免疫阳性。

结论

MECs通过紧密连接和缝隙连接相连，并且它们拥有AQP4水通道。这些蛋白质存在强调了MECs作为脑膜屏障一部分在视神经微环境中的重要功能。除了这种屏障功能外，MECs对这些蛋白质的表达支持了这些细胞在视神经微环境中的信号转导和脑脊液清除途径中发挥更广泛的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/88eb/5489558/3cbedde89ba2/fneur-08-00308-g001.jpg

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人视神经脑膜细胞中的细胞间相互作用蛋白（间隙连接、紧密连接和桥粒）及水通道蛋白4

Cell-Cell Interaction Proteins (Gap Junctions, Tight Junctions, and Desmosomes) and Water Transporter Aquaporin 4 in Meningothelial Cells of the Human Optic Nerve.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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