TRPC5 的热感应能力:现有知识和悬而未决的问题。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Alexandra Ptakova, Viktorie Vlachova
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引用次数: 0

摘要

我们对哺乳动物体感系统如何检测有害冷的了解仍然有限。虽然人们对 TRPM8 在传递轻度非毒性冷信号中的作用有了合理的理解,但传递疼痛性冷刺激的通道的分子特性仍未得到解决。据最初描述,TRPC5 对体外背根神经节神经元的中度冷反应有贡献,但缺乏 TRPC5 的小鼠对低温的行为反应没有变化。目前正在深入研究的问题是,为什么具有冷却激活能力的通道只有在特定条件下才有助于冷反应。看来,生理上对低温的检测越来越有可能涉及多种不同的通道和机制,这些通道和机制可调节感知的阈值和强度。在本综述中,我们旨在概述 TRPC5 可能如何对这些机制做出贡献,以及哪些分子特征对其作为冷传感器的作用非常重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermosensing ability of TRPC5: current knowledge and unsettled questions.

Our understanding of how the mammalian somatosensory system detects noxious cold is still limited. While the role of TRPM8 in signaling mild non-noxious coolness is reasonably understood, the molecular identity of channels transducing painful cold stimuli remains unresolved. TRPC5 was originally described to contribute to moderate cold responses of dorsal root ganglia neurons in vitro, but mice lacking TRPC5 exhibited no change in behavioral responses to cold temperature. The question of why a channel endowed with the ability to be activated by cooling contributes to the cold response only under certain conditions is currently being intensively studied. It seems increasingly likely that the physiological detection of cold temperatures involves multiple different channels and mechanisms that modulate the threshold and intensity of perception. In this review, we aim to outline how TRPC5 may contribute to these mechanisms and what molecular features are important for its role as a cold sensor.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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