耳蜗连接蛋白30同质和异质通道表现出不同的组装机制

IF 2.6 Q2 Medicine
Jean Defourny, Nicolas Thelen, Marc Thiry
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引用次数: 14

摘要

编码连接蛋白26和30 (Cx26和Cx30)的GJB2和GJB6的许多突变损害了膜通道的形成,并导致常染色体综合征和非综合征性听力损失。在耳蜗非感觉支持细胞中,Cx26和Cx30形成同质和异质两种类型的间隙连接。这些通道在原位发生的生物发生过程在很大程度上仍然未知。本研究表明,Cx30同质和Cx26/Cx30异质间隙连接在耳蜗中表现出不同的组装机制。当作为同质通道表达时,Cx30优先与外周非连接膜区域(称为周膜)的β-肌动蛋白相互作用,并强烈依赖肌动蛋白网络进行间隙连接斑块组装。相比之下,我们发现Cx26/Cx30异质间隙连接斑块缺乏结膜周围和相关的肌动蛋白网络,并且抵抗肌动蛋白解聚药物。这支持Cx26/Cx30寡聚物可以直接从细胞内部递送到结膜斑块。总之,我们的数据提供了一个新的见解在同质和异质间隙连接斑块组装在耳蜗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Cochlear connexin 30 homomeric and heteromeric channels exhibit distinct assembly mechanisms

Cochlear connexin 30 homomeric and heteromeric channels exhibit distinct assembly mechanisms

Many of the mutations in GJB2 and GJB6, which encode connexins 26 and 30 (Cx26 and Cx30), impair the formation of membrane channels and cause autosomal syndromic and non-syndromic hearing loss. In cochlear non-sensory supporting cells, Cx26 and Cx30 form two types of homomeric and heteromeric gap junctions. The biogenesis processes of these channels occurring in situ remain largely unknown. Here we show that Cx30 homomeric and Cx26/Cx30 heteromeric gap junctions exhibit distinct assembly mechanisms in the cochlea. When expressed as homomeric channels, Cx30 preferentially interacts with β-actin in the peripheral non-junctional membrane region, called perinexus, and strongly relies on the actin network for gap junction plaque assembly. In contrast, we found that Cx26/Cx30 heteromeric gap junction plaques are devoid of perinexus and associated actin network, and resist to actin-depolymerizating drug. This supports that Cx26/Cx30 oligomers could be directly delivered from the interior of the cell to the junctional plaque. Altogether, our data provide a novel insight in homomeric and heteromeric gap junction plaque assembly in the cochlea.

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来源期刊
Mechanisms of Development
Mechanisms of Development 生物-发育生物学
CiteScore
3.60
自引率
0.00%
发文量
0
审稿时长
12.4 weeks
期刊介绍: Mechanisms of Development is an international journal covering the areas of cell biology and developmental biology. In addition to publishing work at the interphase of these two disciplines, we also publish work that is purely cell biology as well as classical developmental biology. Mechanisms of Development will consider papers in any area of cell biology or developmental biology, in any model system like animals and plants, using a variety of approaches, such as cellular, biomechanical, molecular, quantitative, computational and theoretical biology. Areas of particular interest include: Cell and tissue morphogenesis Cell adhesion and migration Cell shape and polarity Biomechanics Theoretical modelling of cell and developmental biology Quantitative biology Stem cell biology Cell differentiation Cell proliferation and cell death Evo-Devo Membrane traffic Metabolic regulation Organ and organoid development Regeneration Mechanisms of Development does not publish descriptive studies of gene expression patterns and molecular screens; for submission of such studies see Gene Expression Patterns.
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