Thermal gradient ring for analysis of temperature-dependent behaviors involving TRP channels in mice.

IF 2.6 4区医学 Q2 PHYSIOLOGY

Journal of Physiological Sciences Pub Date : 2024-02-08 DOI:10.1186/s12576-024-00903-w

Tomoyo Ujisawa, Jing Lei, Makiko Kashio, Makoto Tominaga

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引用次数: 0

Abstract

There are a lot of temperature-sensitive proteins including transient receptor potential (TRP) channels. Some TRP channels are temperature receptors having specific activation temperatures in vitro that are within the physiological temperature range. Mice deficient in specific TRP channels show abnormal thermal behaviors, but the role of TRP channels in these behaviors is not fully understood. The Thermal Gradient Ring is a new apparatus that allows mice to freely move around the ring floor and not stay in a corner. The system can analyze various factors (e.g., 'Spent time', 'Travel distance', 'Moving speed', 'Acceleration') associated with temperature-dependent behaviors of TRP-deficient mice. For example, the Ring system clearly discriminated differences in temperature-dependent phenotypes between mice with diabetic peripheral neuropathy and TRPV1^-/- mice, and demonstrated the importance of TRPV3 in temperature detection in skin. Studies using the Thermal Gradient Ring system can increase understanding of the molecular basis of thermal behaviors in mice and in turn help develop strategies to affect responses to different temperature conditions in humans.

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用于分析涉及小鼠 TRP 通道的温度依赖性行为的热梯度环。

有许多对温度敏感的蛋白质，包括瞬时受体电位（TRP）通道。有些 TRP 通道是温度受体，在体外有特定的激活温度，这些温度在生理温度范围内。缺乏特定 TRP 通道的小鼠会表现出异常的热行为，但 TRP 通道在这些行为中的作用尚不完全清楚。热梯度环是一种新型仪器，它允许小鼠在环形地板上自由移动，而不是呆在一个角落里。该系统可分析与 TRP 缺乏小鼠的温度依赖行为相关的各种因素（如 "花费时间"、"移动距离"、"移动速度 "和 "加速度"）。例如，热梯度环系统能清楚地区分糖尿病周围神经病变小鼠和 TRPV1-/- 小鼠的温度依赖表型差异，并证明了 TRPV3 在皮肤温度检测中的重要性。利用热梯度环系统进行的研究可以加深对小鼠热行为分子基础的了解，进而帮助开发影响人类对不同温度条件反应的策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Physiological Sciences 医学-生理学

CiteScore

4.40

自引率

4.30%

发文量

审稿时长

6-12 weeks

期刊介绍： The Journal of Physiological Sciences publishes peer-reviewed original papers, reviews, short communications, technical notes, and letters to the editor, based on the principles and theories of modern physiology and addressed to the international scientific community. All fields of physiology are covered, encompassing molecular, cellular and systems physiology. The emphasis is on human and vertebrate physiology, but comparative papers are also considered. The process of obtaining results must be ethically sound. Fields covered: Adaptation and environment Autonomic nervous function Biophysics Cell sensors and signaling Central nervous system and brain sciences Endocrinology and metabolism Excitable membranes and neural cell physiology Exercise physiology Gastrointestinal and kidney physiology Heart and circulatory physiology Molecular and cellular physiology Muscle physiology Physiome/systems biology Respiration physiology Senses.