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电荷和亲脂性是FM1-43及其衍生物有效阻断毛细胞机械电换能通道所必需的。

Charge and lipophilicity are required for effective block of the hair-cell mechano-electrical transducer channel by FM1-43 and its derivatives.

作者信息

Derudas Marco, O'Reilly Molly, Kirkwood Nerissa K, Kenyon Emma J, Grimsey Sybil, Kitcher Siân R, Workman Shawna, Bull James C, Ward Simon E, Kros Corné J, Richardson Guy P

机构信息

Sussex Neuroscience, School of Life Sciences, University of Sussex, Brighton, United Kingdom.

Sussex Drug Discovery Centre, School of Life Sciences, University of Sussex, Brighton, United Kingdom.

出版信息

Front Cell Dev Biol. 2023 Oct 10;11:1247324. doi: 10.3389/fcell.2023.1247324. eCollection 2023.

DOI:10.3389/fcell.2023.1247324
PMID:37900280
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10601989/
Abstract

The styryl dye FM1-43 is widely used to study endocytosis but behaves as a permeant blocker of the mechano-electrical transducer (MET) channel in sensory hair cells, loading rapidly and specifically into the cytoplasm of hair cells in a MET channel-dependent manner. Patch clamp recordings of mouse outer hair cells (OHCs) were used to determine how a series of structural modifications of FM1-43 affect MET channel block. Fluorescence microscopy was used to assess how the modifications influence hair-cell loading in mouse cochlear cultures and zebrafish neuromasts. Cochlear cultures were also used to evaluate otoprotective potential of the modified FM1-43 derivatives. Structure-activity relationships reveal that the lipophilic tail and the cationic head group of FM1-43 are both required for MET channel block in mouse cochlear OHCs; neither moiety alone is sufficient. The extent of MET channel block is augmented by increasing the lipophilicity/bulkiness of the tail, by reducing the number of positive charges in the head group from two to one, or by increasing the distance between the two charged head groups. Loading assays with zebrafish neuromasts and mouse cochlear cultures are broadly in accordance with these observations but reveal a loss of hair-cell specific labelling with increasing lipophilicity. Although FM1-43 and many of its derivatives are generally cytotoxic when tested on cochlear cultures in the presence of an equimolar concentration of the ototoxic antibiotic gentamicin (5 µM), at a 10-fold lower concentration (0.5 µM), two of the derivatives protect OHCs from cell death caused by 48 h-exposure to 5 µM gentamicin.

摘要

苯乙烯基染料FM1-43被广泛用于研究内吞作用,但在感觉毛细胞中它可作为机械电换能器(MET)通道的渗透性阻滞剂,以MET通道依赖性方式快速且特异性地加载到毛细胞的细胞质中。利用小鼠外毛细胞(OHC)的膜片钳记录来确定FM1-43的一系列结构修饰如何影响MET通道阻滞。利用荧光显微镜来评估这些修饰如何影响小鼠耳蜗培养物和斑马鱼神经丘中的毛细胞加载。耳蜗培养物还被用于评估修饰后的FM1-43衍生物的耳保护潜力。构效关系表明,FM1-43的亲脂性尾部和阳离子头部基团对于小鼠耳蜗OHC中的MET通道阻滞都是必需的;单独任何一个部分都不足以实现阻滞。通过增加尾部的亲脂性/体积、将头部基团中的正电荷数量从两个减少到一个,或者增加两个带电头部基团之间的距离,可以增强MET通道阻滞的程度。斑马鱼神经丘和小鼠耳蜗培养物的加载试验大致与这些观察结果一致,但显示随着亲脂性增加,毛细胞特异性标记丧失。尽管在等摩尔浓度的耳毒性抗生素庆大霉素(5 μM)存在的情况下,在耳蜗培养物上测试时,FM1-43及其许多衍生物通常具有细胞毒性,但在浓度低10倍(0.5 μM)时,其中两种衍生物可保护OHC免受48小时暴露于5 μM庆大霉素所导致的细胞死亡。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c871/10601989/ceb967879be2/fcell-11-1247324-g010.jpg
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Elasticity and Thermal Stability are Key Determinants of Hearing Rescue by Mini-Protocadherin-15 Proteins.弹性和热稳定性是原钙黏蛋白-15微小蛋白拯救听力的关键决定因素。
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