How two sesquiterpenes drive horse manure rolling behavior in wild giant pandas

IF 1.6 3区环境科学与生态学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Chemoecology Pub Date : 2021-03-28 DOI:10.1007/s00049-021-00344-6

Wenliang Zhou, Shilong Yang, Ren Lai, Fuwen Wei

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Abstract

In this work, we discussed and counter-commented Paul J. Weldon's comments on our recent paper (Zhou et al. Proc Natl Acad Sci USA 117:32493, 2020a), where we reported that BCP/BCPO (beta-caryophyllene/caryophyllene oxide) in fresh horse manure is sufficient to drive manure rolling behavior (HMR) in giant panda and attenuate the cold sensitivity of mice by directly targeting and inhibiting transient receptor potential melastatin 8 (TRPM8), an archetypical cold-activated ion channel of mammals. The main question we arise in this response is: “which is the reasonable target of BCP/BCPO? Parasites or TRPM8?” Based on the knowledge of TRPM8-mediated cooling sensation, interaction between BCP/BCPO and TRPM8, BCP/BCPO concentration in horse manure samples, correlation between HMR frequency and habitat temperature, insecticidal activity of BCP/BCPO and thermal ecology of parasites, we prefer a simple idea that BCP/BCPO-induced TRPM8 antagonism bestows the wild giant pandas with cold tolerance at low-ambient temperatures. Compared with the speculation of insecticidal activity induced by HMR behavior, our study provided a comprehensive mechanism to confirm a physiological target of BCP/BCPO during the highly cold-correlated behavior.

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两倍半萜是如何驱动野生大熊猫的马粪滚动行为的

在这项工作中，我们讨论并反驳了Paul J. Weldon对我们最近的论文(Zhou et al.)的评论。作者报道了新鲜马粪中的BCP/BCPO (β -石竹烯/氧化石竹烯)通过直接靶向和抑制哺乳动物典型的冷激活离子通道美拉抑素8 (TRPM8)，足以驱动大熊猫的粪便移动行为(HMR)，并减弱小鼠的冷敏感性。我们在这个回应中提出的主要问题是:“哪个是BCP/BCPO的合理目标?”寄生虫还是TRPM8?”基于对TRPM8介导的冷却感觉、BCP/BCPO与TRPM8的相互作用、马粪样品中BCP/BCPO浓度、HMR频率与栖息地温度的相关性、BCP/BCPO的杀虫活性和寄生虫热生态的了解，我们倾向于BCP/BCPO诱导的TRPM8拮抗作用赋予野生大熊猫在低温环境下的耐寒性。与HMR行为诱导杀虫活性的推测相比，我们的研究为BCP/BCPO在高冷相关行为中的生理靶点提供了一个全面的机制。

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来源期刊

Chemoecology 环境科学-生化与分子生物学

CiteScore

4.20

自引率

0.00%

发文量

审稿时长

>36 weeks

期刊介绍： It is the aim of Chemoecology to promote and stimulate basic science in the field of chemical ecology by publishing research papers that integrate evolution and/or ecology and chemistry in an attempt to increase our understanding of the biological significance of natural products. Its scopes cover the evolutionary biology, mechanisms and chemistry of biotic interactions and the evolution and synthesis of the underlying natural products. Manuscripts on the evolution and ecology of trophic relationships, intra- and interspecific communication, competition, and other kinds of chemical communication in all types of organismic interactions will be considered suitable for publication. Ecological studies of trophic interactions will be considered also if they are based on the information of the transmission of natural products (e.g. fatty acids) through the food-chain. Chemoecology further publishes papers that relate to the evolution and ecology of interactions mediated by non-volatile compounds (e.g. adhesive secretions). Mechanistic approaches may include the identification, biosynthesis and metabolism of substances that carry information and the elucidation of receptor- and transduction systems using physiological, biochemical and molecular techniques. Papers describing the structure and functional morphology of organs involved in chemical communication will also be considered.