Role of thermosensitive transient receptor potential (TRP) channels in thermal preference of male and female mice

IF 2.9 2区生物学 Q2 BIOLOGY

Journal of thermal biology Pub Date : 2024-05-01 DOI:10.1016/j.jtherbio.2024.103868

Mirela Iodi Carstens , Avina Mahroke , Tudor Selescu , E. Carstens

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引用次数: 0

Abstract

Transient Receptor Potential (TRP) ion channels are important for sensing environmental temperature. In rodents, TRPV4 senses warmth (25-34 °C), TRPV1 senses heat (>42 °C), TRPA1 putatively senses cold (<17 °C), and TRPM8 senses cool-cold (18-26 °C). We investigated if knockout (KO) mice lacking these TRP channels exhibited changes in thermal preference. Thermal preference was tested using a dual hot-cold plate with one thermoelectric surface set at 30 °C and the adjacent surface at a temperature of 15–45 °C in 5 °C increments. Blinded observers counted the number of times mice crossed through an opening between plates and the percentage of time spent on the 30 °C plate. In a separate experiment, observers blinded as to genotype also assessed the temperature at the location on a thermal gradient (1.83 m, 4-50 °C) occupied by the mouse at 5- or 10-min intervals over 2 h. Male and female wildtype mice preferred 30 °C and significantly avoided colder (15–20 °C) and hotter (40–45 °C) temperatures. Male TRPV1KOs and TRPA1KOs, and TRPV4KOs of both sexes, were similar, while female WTs, TRPV1KOs, TRPA1KOs and TRPM8KOs did not show significant thermal preferences across the temperature range. Male and female TRPM8KOs did not significantly avoid the coldest temperatures. Male mice (except for TRPM8KOs) exhibited significantly fewer plate crossings at hot and cold temperatures and more crossings at thermoneutral temperatures, while females exhibited a similar but non-significant trend. Occupancy temperatures along the thermal gradient exhibited a broad distribution that shrank somewhat over time. Mean occupancy temperatures (recorded at 90–120 min) were significantly higher for females (30–34 °C) compared to males (26–27 °C) of all genotypes, except for TRPA1KOs which exhibited no sex difference. The results indicate (1) sex differences with females (except TRPA1KOs) preferring warmer temperatures, (2) reduced thermosensitivity in female TRPV1KOs, and (3) reduced sensitivity to cold and innocuous warmth in male and female TRPM8KOs consistent with previous studies.

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热敏瞬态受体电位（TRP）通道在雌雄小鼠热偏好中的作用

瞬态受体电位（TRP）离子通道对感知环境温度非常重要。在啮齿类动物中，TRPV4感温（25-34 °C），TRPV1感热（42 °C），TRPA1可能感冷（17 °C），TRPM8感冷-冷（18-26 °C）。我们研究了缺乏这些TRP通道的基因敲除（KO）小鼠是否表现出热偏好的变化。热偏好测试使用的是双冷热板，其中一个热电表面的温度设定为 30 °C，相邻表面的温度为 15-45 °C，以 5 °C为增量。双盲观察者计算小鼠穿过板间开口的次数以及在 30 °C板上停留时间的百分比。雌雄野生型小鼠都喜欢 30 °C，并明显回避更冷（15-20 °C）和更热（40-45 °C）的温度。雄性 TRPV1KOs 和 TRPA1KOs 以及雌雄 TRPV4KOs 的情况相似，而雌性 WTs、TRPV1KOs、TRPA1KOs 和 TRPM8KOs 在整个温度范围内没有表现出明显的热偏好。雄性和雌性 TRPM8KOs 对最冷的温度没有明显的回避。雄性小鼠（TRPM8KOs 除外）在高温和低温下的板交叉次数明显较少，而在中温下的交叉次数较多，而雌性小鼠则表现出类似但不显著的趋势。沿热梯度的占用温度呈广泛分布，但随着时间的推移有所缩小。除 TRPA1KOs 无性别差异外，所有基因型的雌性（30-34 °C）平均占用温度（90-120 分钟记录）均显著高于雄性（26-27 °C）。结果表明：（1）雌性（TRPA1KOs 除外）更喜欢温暖的温度，存在性别差异；（2）雌性 TRPV1KOs 对温度的敏感性降低；（3）雄性和雌性 TRPM8KOs 对寒冷和无害温度的敏感性降低，这与之前的研究结果一致。

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来源期刊

Journal of thermal biology 生物-动物学

CiteScore

5.30

自引率

7.40%

发文量

196

审稿时长

14.5 weeks

期刊介绍： The Journal of Thermal Biology publishes articles that advance our knowledge on the ways and mechanisms through which temperature affects man and animals. This includes studies of their responses to these effects and on the ecological consequences. Directly relevant to this theme are: • The mechanisms of thermal limitation, heat and cold injury, and the resistance of organisms to extremes of temperature • The mechanisms involved in acclimation, acclimatization and evolutionary adaptation to temperature • Mechanisms underlying the patterns of hibernation, torpor, dormancy, aestivation and diapause • Effects of temperature on reproduction and development, growth, ageing and life-span • Studies on modelling heat transfer between organisms and their environment • The contributions of temperature to effects of climate change on animal species and man • Studies of conservation biology and physiology related to temperature • Behavioural and physiological regulation of body temperature including its pathophysiology and fever • Medical applications of hypo- and hyperthermia Article types: • Original articles • Review articles