不同的荧光标签报告了 spHCN 通道电压传感器运动的不同组成部分。

IF 3.3 2区 医学 Q1 PHYSIOLOGY Journal of General Physiology Pub Date : 2024-08-05 Epub Date: 2024-07-05 DOI:10.1085/jgp.202413559
Magdalena N Wojciechowski, Chaseley E McKenzie, Andrew Hung, Alibek Kuanyshbek, Ming S Soh, Christopher A Reid, Ian C Forster
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引用次数: 0

摘要

我们使用电压钳荧光测定法探测了在爪蟾卵母细胞中表达的海胆 HCN 通道(spHCN)电压感应结构域中 S4 螺旋的运动。我们利用与 S4 螺旋 N 端 Cys332 共价连接的 ALEXA-488 或 MTS-TAMRA 获得了明显不同的荧光反应。随着超极化步骤的进行,ALEXA-488 的荧光迅速增加,这与之前描述的报告 S4 初始内向运动的情况一致。相比之下,MTS-TAMRA 的荧光增加较慢,其早期阶段与通道打开的阶段相关。此外,两种标签都能分辨出追踪模式转变或通道滞后发展的缓慢荧光成分。我们将这一成分量化为失活尾流延迟的增加以及随之而来的激活期的延长,并发现它在很大程度上取决于孔道中 K+ 离子的存在。通过碰撞淬灭实验和结构预测,我们确定 ALEXA-488 比 MTS-TAMRA 更容易暴露于溶剂中。我们建议使用不同的荧光探针对通道激活过程中的 S4 运动成分进行动力学解析,以揭示不同的生物物理特性。我们的发现强调了在解释电压钳荧光测定数据时需要谨慎,并证明了不同标签在探究电压门控膜蛋白不同生物物理特性方面的潜在作用。
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Different fluorescent labels report distinct components of spHCN channel voltage sensor movement.

We used voltage clamp fluorometry to probe the movement of the S4 helix in the voltage-sensing domain of the sea urchin HCN channel (spHCN) expressed in Xenopus oocytes. We obtained markedly different fluorescence responses with either ALEXA-488 or MTS-TAMRA covalently linked to N-terminal Cys332 of the S4 helix. With hyperpolarizing steps, ALEXA-488 fluorescence increased rapidly, consistent with it reporting the initial inward movement of S4, as previously described. In contrast, MTS-TAMRA fluorescence increased more slowly and its early phase correlated with that of channel opening. Additionally, a slow fluorescence component that tracked the development of the mode shift, or channel hysteresis, could be resolved with both labels. We quantitated this component as an increased deactivation tail current delay with concomitantly longer activation periods and found it to depend strongly on the presence of K+ ions in the pore. Using collisional quenching experiments and structural predictions, we established that ALEXA-488 was more exposed to solvent than MTS-TAMRA. We propose that components of S4 movement during channel activation can be kinetically resolved using different fluorescent probes to reveal distinct biophysical properties. Our findings underscore the need to apply caution when interpreting voltage clamp fluorometry data and demonstrate the potential utility of different labels to interrogate distinct biophysical properties of voltage-gated membrane proteins.

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来源期刊
CiteScore
6.00
自引率
10.50%
发文量
88
审稿时长
6-12 weeks
期刊介绍: General physiology is the study of biological mechanisms through analytical investigations, which decipher the molecular and cellular mechanisms underlying biological function at all levels of organization. The mission of Journal of General Physiology (JGP) is to publish mechanistic and quantitative molecular and cellular physiology of the highest quality, to provide a best-in-class author experience, and to nurture future generations of independent researchers. The major emphasis is on physiological problems at the cellular and molecular level.
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