Gut microbiota intervention attenuates thermogenesis in broilers exposed to high temperature through modulation of the hypothalamic 5-HT pathway

IF 7 1区农林科学 Q1 Agricultural and Biological Sciences

Journal of Animal Science and Biotechnology Pub Date : 2023-12-21 DOI:10.1186/s40104-023-00950-0

Sheng Li, Xiaoqing Li, Kai Wang, Yansen Li, Kentaro Nagaoka, Chunmei Li

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引用次数: 0

Abstract

Broilers have a robust metabolism and high body temperature, which make them less tolerant to high-temperature (HT) environments and more susceptible to challenges from elevated temperatures. Gut microbes, functioning as symbionts within the host, possess the capacity to significantly regulate the physiological functions and environmental adaptability of the host. This study aims to investigate the effects of gut microbial intervention on the body temperature and thermogenesis of broilers at different ambient temperatures, as well as the underlying mechanism involving the "gut-brain" axis. Broilers were subjected to gut microbiota interference with or without antibiotics (control or ABX) starting at 1 day of age. At 21 day of age, they were divided into 4 groups and exposed to different environments for 7 d: The control and ABX groups at room temperature (RT, 24 ± 1 °C, 60% relative humidity (RH), 24 h/d) and the control-HT and ABX-HT groups at high temperature (HT, 32 ± 1 °C, 60% RH, 24 h/d). The results demonstrated that the antibiotic-induced gut microbiota intervention increased body weight and improved feed conversion in broiler chickens (P < 0.05). Under HT conditions, the microbiota intervention reduced the rectal temperature of broiler chickens (P < 0.05), inhibited the expression of avUCP and thermogenesis-related genes in breast muscle and liver (P < 0.05), and thus decreased thermogenesis capacity. Furthermore, the gut microbiota intervention blunted the hypothalamic‒pituitary‒adrenal axis and hypothalamic–pituitary–thyroid axis activation induced by HT conditions. By analyzing the cecal microbiota composition of control and ABX chickens maintained under HT conditions, we found that Alistipes was enriched in control chickens. In contrast, antibiotic-induced gut microbiota intervention resulted in a decrease in the relative abundance of Alistipes (P < 0.05). Moreover, this difference was accompanied by increased hypothalamic 5-hydroxytryptamine (5-HT) content and TPH2 expression (P < 0.05). These findings underscore the critical role of the gut microbiota in regulating broiler thermogenesis via the gut-brain axis and suggest that the hypothalamic 5-HT pathway may be a potential mechanism by which the gut microbiota affects thermoregulation in broilers.

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肠道微生物群干预通过调节下丘脑5-羟色胺通路减轻暴露于高温的肉鸡的产热作用

肉鸡新陈代谢旺盛，体温较高，因此对高温（HT）环境的耐受性较差，更容易受到高温的挑战。肠道微生物作为宿主体内的共生体，能够显著调节宿主的生理功能和环境适应能力。本研究旨在探讨肠道微生物干预对不同环境温度下肉鸡体温和产热的影响，以及涉及 "肠-脑 "轴的潜在机制。肉鸡从 1 日龄开始接受肠道微生物群干预，无论是否使用抗生素（对照组或 ABX）。21 日龄时，肉鸡被分为 4 组，在不同环境中暴露 7 天：对照组和 ABX 组在室温下（RT，24 ± 1 °C，60% 相对湿度（RH），24 小时/天），对照组-HT 组和 ABX-HT 组在高温下（HT，32 ± 1 °C，60% 相对湿度，24 小时/天）。结果表明，抗生素诱导的肠道微生物群干预增加了肉鸡的体重，提高了饲料转化率（P < 0.05）。在高温条件下，微生物群干预降低了肉鸡的直肠温度（P < 0.05），抑制了胸肌和肝脏中 avUCP 和产热相关基因的表达（P < 0.05），从而降低了产热能力。此外，肠道微生物群的干预还减弱了高温条件下诱导的下丘脑-垂体-肾上腺轴和下丘脑-垂体-甲状腺轴的激活。通过分析在高温条件下饲养的对照组鸡和 ABX 组鸡的盲肠微生物群组成，我们发现对照组鸡富含 Alistipes。与此相反，抗生素诱导的肠道微生物群干预会导致Alistipes的相对丰度下降（P < 0.05）。此外，这种差异还伴随着下丘脑 5- 羟色胺（5-HT）含量和 TPH2 表达的增加（P < 0.05）。这些发现强调了肠道微生物群在通过肠脑轴调节肉鸡产热中的关键作用，并表明下丘脑 5-HT 通路可能是肠道微生物群影响肉鸡体温调节的潜在机制。

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来源期刊

Journal of Animal Science and Biotechnology AGRICULTURE, DAIRY & ANIMAL SCIENCE-

CiteScore

9.90

自引率

2.90%

发文量

822

审稿时长

17 weeks

期刊介绍： Journal of Animal Science and Biotechnology is an open access, peer-reviewed journal that encompasses all aspects of animal science and biotechnology. That includes domestic animal production, animal genetics and breeding, animal reproduction and physiology, animal nutrition and biochemistry, feed processing technology and bioevaluation, animal biotechnology, and meat science.