Two-state model explaining thermodynamic regulation of thermo-gating channels.

Xuejun C Zhang, Zhuoya Yu
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Abstract

Temperature-sensitive ion channels, such as those from the TRP family (thermo-TRPs) present in all animal cells, serve to perceive heat and cold sensations. A considerable number of protein structures have been reported for these ion channels, providing a solid basis for revealing their structure-function relationship. Previous functional studies suggest that the thermosensing ability of TRP channels is primarily determined by the properties of their cytosolic domain. Despite their importance in sensing and wide interests in the development of suitable therapeutics, the precise mechanisms underlying acute and steep temperature-mediated channel gating remain enigmatic. Here, we propose a model in which the thermo-TRP channels directly sense external temperature through the formation and dissociation of metastable cytoplasmic domains. An open-close bistable system is described in the framework of equilibrium thermodynamics, and the middle-point temperature T½ similar to the V½ parameter for a voltage-gating channel is defined. Based on the relationship between channel opening probability and temperature, we estimate the change in entropy and enthalpy during the conformational change for a typical thermosensitive channel. Our model is able to accurately reproduce the steep activation phase in experimentally determined thermal-channel opening curves, and thus should greatly facilitate future experimental verification.

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解释热控通道热力学调节的双态模型。
温度敏感的离子通道,例如存在于所有动物细胞中的TRP家族的离子通道(thermotrp),用于感知冷热感觉。这些离子通道的蛋白质结构已被大量报道,为揭示它们的结构-功能关系提供了坚实的基础。先前的功能研究表明,TRP通道的热感能力主要取决于其细胞质结构域的性质。尽管它们在传感和开发合适的治疗方法方面具有重要意义,但急性和陡峭温度介导的通道门控的确切机制仍然是谜。在这里,我们提出了一个模型,在这个模型中,热trp通道通过亚稳细胞质结构域的形成和解离直接感知外部温度。在平衡热力学的框架下描述了一个开闭双稳系统,并定义了与电压门控通道的V½参数相似的中点温度T½。根据通道打开概率与温度的关系,估计了典型热敏通道构象变化过程中的熵和焓变化。我们的模型能够准确地再现实验确定的热通道打开曲线中的陡峭激活阶段,因此应该极大地促进未来的实验验证。
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CiteScore
1.30
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0.00%
发文量
117
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