Metabolomic analysis reveals the molecular mechanism related to leg abnormality in broilers

Jumei Zheng, Qi Zhang, Xinxin Tang, Fan Ying, Dawei Liu, Sen Li, Ranran Liu, Jie Wen, QingHe Li, Guiping Zhao
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Abstract

Rapid body weight gain in broilers overloads the metabolic system of the organism, resulting in leg abnormalities, which seriously affects animal welfare and industry economics. In this study, broilers with normal and deformed leg bones were examined. Serum biochemical indices showed that the serum calcium to phosphorus ratio was extremely decreased in leg deformed group. In addition, abnormal serum lipid levels suggested a disruption in lipid metabolism. Based on widely targeted metabonomic analysis of serum and cartilage tissues, a total of nine differential metabolites (DMs) significantly associated with leg abnormalities and serum calcium and phosphorus levels were screened, including carnitine C16:0, carnitine C18:1, 3‐hydroxymethyl‐L‐tyrosine, cis‐4‐hydroxy‐D‐proline, cis‐L‐3‐hydroxyproline, trans‐4‐hydroxy‐L‐proline, and so on. Pathway analysis revealed that fatty acid degradation and arachidonic acid metabolism were enriched. Analysis of DMs in these two pathways showed that prostaglandin D2, prostaglandin J2, prostaglandin A2, 15‐keto prostaglandin F2α, and Δ12‐prostaglandin J2 significantly differed between the normal and abnormal groups. It was hypothesized that these important metabolic pathways and metabolites were involved in the metabolic regulation of leg abnormalities.
代谢组分析揭示肉鸡腿部异常的分子机制
肉鸡快速增重会使机体的新陈代谢系统超负荷运转,从而导致腿部畸形,严重影响动物福利和行业经济效益。本研究对腿骨正常和畸形的肉鸡进行了研究。血清生化指标显示,腿骨畸形组的血清钙磷比极度降低。此外,血清脂质水平异常表明脂质代谢紊乱。通过对血清和软骨组织进行广泛的定向代谢分析,筛选出与腿部畸形和血清钙磷水平显著相关的9种差异代谢物(DMs),包括肉碱C16:0、肉碱C18:1、3-羟甲基-L-酪氨酸、顺式-4-羟基-D-脯氨酸、顺式-L-3-羟基脯氨酸、反式-4-羟基-L-脯氨酸等。途径分析表明,脂肪酸降解和花生四烯酸代谢富集。对这两条途径中的DMs分析表明,前列腺素D2、前列腺素J2、前列腺素A2、15-酮前列腺素F2α和Δ12-前列腺素J2在正常组和异常组之间存在显著差异。假设这些重要的代谢途径和代谢物参与了腿部异常的代谢调节。
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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