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本文引用的文献

1
Maturation of Heterogeneity in Afferent Synapse Ultrastructure in the Mouse Cochlea.小鼠耳蜗传入突触超微结构异质性的成熟
Front Synaptic Neurosci. 2021 Jun 17;13:678575. doi: 10.3389/fnsyn.2021.678575. eCollection 2021.
2
Large-scale 3D imaging of mouse cochlea using serial block-face scanning electron microscopy.利用连续块面扫描电子显微镜对小鼠耳蜗进行大规模 3D 成像。
STAR Protoc. 2021 May 4;2(2):100515. doi: 10.1016/j.xpro.2021.100515. eCollection 2021 Jun 18.
3
Glucose Protects Cochlear Hair Cells Against Oxidative Stress and Attenuates Noise-Induced Hearing Loss in Mice.葡萄糖可保护耳蜗毛细胞免受氧化应激,减轻小鼠噪声性听力损失。
Neurosci Bull. 2021 May;37(5):657-668. doi: 10.1007/s12264-020-00624-1. Epub 2021 Jan 7.
4
Electron Microscopic Reconstruction of Neural Circuitry in the Cochlea.耳蜗神经回路的电子显微镜重建。
Cell Rep. 2021 Jan 5;34(1):108551. doi: 10.1016/j.celrep.2020.108551.
5
Gradients in the biophysical properties of neonatal auditory neurons align with synaptic contact position and the intensity coding map of inner hair cells.新生儿听觉神经元的生物物理特性梯度与突触接触位置和内毛细胞的强度编码图相一致。
Elife. 2020 Jul 8;9:e55378. doi: 10.7554/eLife.55378.
6
Macromolecular and electrical coupling between inner hair cells in the rodent cochlea.哺乳动物耳蜗内毛细胞的大分子和电偶联。
Nat Commun. 2020 Jun 25;11(1):3208. doi: 10.1038/s41467-020-17003-z.
7
Down-regulation of AMPK signaling pathway rescues hearing loss in TFB1 transgenic mice and delays age-related hearing loss.下调 AMPK 信号通路可挽救 TFB1 转基因小鼠的听力损失并延缓年龄相关性听力损失。
Aging (Albany NY). 2020 Apr 2;12(7):5590-5611. doi: 10.18632/aging.102977.
8
Synaptic mitochondria regulate hair-cell synapse size and function.突触线粒体调节毛细胞突触的大小和功能。
Elife. 2019 Oct 14;8:e48914. doi: 10.7554/eLife.48914.
9
Sensory Processing at Ribbon Synapses in the Retina and the Cochlea.视网膜和耳蜗中的带状突触的感觉处理。
Physiol Rev. 2020 Jan 1;100(1):103-144. doi: 10.1152/physrev.00026.2018. Epub 2019 Aug 2.
10
Intrinsic planar polarity mechanisms influence the position-dependent regulation of synapse properties in inner hair cells.内在平面极性机制影响内毛细胞中突触性质的位置依赖性调节。
Proc Natl Acad Sci U S A. 2019 Apr 30;116(18):9084-9093. doi: 10.1073/pnas.1818358116. Epub 2019 Apr 11.

听觉毛细胞中突触和线粒体的排列。

Aligned Organization of Synapses and Mitochondria in Auditory Hair Cells.

机构信息

National Laboratory of Pattern Recognition, Institute of Automation, Chinese Academy of Sciences, Beijing, 100190, China.

School of Artificial Intelligence, School of Future Technology, University of Chinese Academy of Sciences, Beijing, 101408, China.

出版信息

Neurosci Bull. 2022 Mar;38(3):235-248. doi: 10.1007/s12264-021-00801-w. Epub 2021 Nov 27.

DOI:10.1007/s12264-021-00801-w
PMID:34837647
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8975952/
Abstract

Recent studies have revealed great functional and structural heterogeneity in the ribbon-type synapses at the basolateral pole of the isopotential inner hair cell (IHC). This feature is believed to be critical for audition over a wide dynamic range, but whether the spatial gradient of ribbon morphology is fine-tuned in each IHC and how the mitochondrial network is organized to meet local energy demands of synaptic transmission remain unclear. By means of three-dimensional electron microscopy and artificial intelligence-based algorithms, we demonstrated the cell-wide structural quantification of ribbons and mitochondria in mature mid-cochlear IHCs of mice. We found that adjacent IHCs in staggered pairs differ substantially in cell body shape and ribbon morphology gradient as well as mitochondrial organization. Moreover, our analysis argues for a location-specific arrangement of correlated ribbon and mitochondrial function at the basolateral IHC pole.

摘要

最近的研究揭示了等势内毛细胞(IHC)基底外侧极的带状突触在功能和结构上存在巨大的异质性。这一特征被认为对宽动态范围的听觉至关重要,但每个 IHC 中的带状形态空间梯度是否得到精细调整,以及线粒体网络如何组织以满足突触传递的局部能量需求,目前尚不清楚。通过三维电子显微镜和基于人工智能的算法,我们展示了成熟的小鼠耳蜗中段 IHC 中带状和线粒体的全细胞结构定量。我们发现,交错对中的相邻 IHC 在细胞体形状和带状形态梯度以及线粒体组织方面存在显著差异。此外,我们的分析还证明了在 IHC 基底外侧极存在与位置相关的带状和线粒体功能的特定排列。