Novel insights into the modulation of the voltage-gated potassium channel KV1.3 activation gating by membrane ceramides.

IF 5 2区 医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Lipid Research Pub Date : 2024-08-01 Epub Date: 2024-07-15 DOI:10.1016/j.jlr.2024.100596
Bence Cs Szabo, Mate Szabo, Peter Nagy, Zoltan Varga, Gyorgy Panyi, Tamas Kovacs, Florina Zakany
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Abstract

Membrane lipids extensively modulate the activation gating of voltage-gated potassium channels (KV), however, much less is known about the mechanisms of ceramide and glucosylceramide actions including which structural element is the main intramolecular target and whether there is any contribution of indirect, membrane biophysics-related mechanisms to their actions. We used two-electrode voltage-clamp fluorometry capable of recording currents and fluorescence signals to simultaneously monitor movements of the pore domain (PD) and the voltage sensor domain (VSD) of the KV1.3 ion channel after attaching an MTS-TAMRA fluorophore to a cysteine introduced into the extracellular S3-S4 loop of the VSD. We observed rightward shifts in the conductance-voltage (G-V) relationship, slower current activation kinetics, and reduced current amplitudes in response to loading the membrane with C16-ceramide (Cer) or C16-glucosylceramide (GlcCer). When analyzing VSD movements, only Cer induced a rightward shift in the fluorescence signal-voltage (F-V) relationship and slowed fluorescence activation kinetics, whereas GlcCer exerted no such effects. These results point at a distinctive mechanism of action with Cer primarily targeting the VSD, while GlcCer only the PD of KV1.3. Using environment-sensitive probes and fluorescence-based approaches, we show that Cer and GlcCer similarly increase molecular order in the inner, hydrophobic regions of bilayers, however, Cer induces a robust molecular reorganization at the membrane-water interface. We propose that this unique ordering effect in the outermost membrane layer in which the main VSD rearrangement involving an outward sliding of the top of S4 occurs can explain the VSD targeting mechanism of Cer, which is unavailable for GlcCer.

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膜神经酰胺对电压门控钾通道 KV1.3 激活门控的新见解。
膜脂质可广泛调节电压门控钾通道(KV)的活化门控,然而,人们对神经酰胺和葡萄糖基甘油酰胺的作用机制知之甚少,包括哪种结构元素是分子内的主要目标,以及间接的膜生物物理相关机制对其作用是否有任何贡献。我们使用了能记录电流和荧光信号的双电极电压钳荧光测定法,在将 MTS-TAMRA 荧光团连接到引入 VSD 细胞外 S3-S4 环的半胱氨酸后,同时监测 KV1.3 离子通道的孔结构域(PD)和电压传感器结构域(VSD)的运动。我们观察到电导-电压(G-V)关系向右移动,电流激活动力学变慢,电流振幅减小,这是对膜加载 C16-神经酰胺(Cer)或 C16-葡萄糖基甘油酰胺(GlcCer)的反应。在分析 VSD 运动时,只有 Cer 会导致荧光信号-电压(F-V)关系右移,并减慢荧光激活动力学,而 GlcCer 则没有这种影响。这些结果表明了一种独特的作用机制,Cer 主要针对 VSD,而 GlcCer 只针对 KV1.3 的 PD。利用环境敏感探针和基于荧光的方法,我们发现 Cer 和 GlcCer 同样增加了双层膜内部疏水区域的分子有序性,但 Cer 在膜-水界面诱导了强有力的分子重组。我们认为,这种在最外层膜层的独特有序效应可以解释 Cer 的 VSD 靶向机制,而 GlcCer 则不具备这种机制。
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来源期刊
Journal of Lipid Research
Journal of Lipid Research 生物-生化与分子生物学
CiteScore
11.10
自引率
4.60%
发文量
146
审稿时长
41 days
期刊介绍: The Journal of Lipid Research (JLR) publishes original articles and reviews in the broadly defined area of biological lipids. We encourage the submission of manuscripts relating to lipids, including those addressing problems in biochemistry, molecular biology, structural biology, cell biology, genetics, molecular medicine, clinical medicine and metabolism. Major criteria for acceptance of articles are new insights into mechanisms of lipid function and metabolism and/or genes regulating lipid metabolism along with sound primary experimental data. Interpretation of the data is the authors’ responsibility, and speculation should be labeled as such. Manuscripts that provide new ways of purifying, identifying and quantifying lipids are invited for the Methods section of the Journal. JLR encourages contributions from investigators in all countries, but articles must be submitted in clear and concise English.
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