Description of metabolic differences between castrated males and intact gilts obtained from high-throughput metabolomics of porcine plasma.

IF 2.7 2区农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Journal of animal science Pub Date : 2025-05-23 DOI:10.1093/jas/skaf178

Samuele Bovo,Matteo Bolner,Giuseppina Schiavo,Giuliano Galimberti,Francesca Bertolini,Stefania Dall'Olio,Anisa Ribani,Paolo Zambonelli,Maurizio Gallo,Luca Fontanesi

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引用次数: 0

Abstract

Surgically castrated male pigs, which are commonly produced in pork production systems, have slightly lower production efficiency, compared to intact female pigs (gilts). This is mainly due to an unfavorable feed conversion rate and fatter carcasses. These differences influenced by physiological and genetic factors can be identified through metabolomics, which describes metabolic profiles. In this study, we used untargeted metabolomics to analyze the plasma of 694 Italian Large White pigs (228 castrated males and 466 intact gilts), sampled at slaughter. The metabolomic profiles included 731 metabolites covering 98 sub-pathways. The raw metabolomic data were cleaned and imputed using Multivariate Imputation by Chained Equations. The Boruta algorithm was then employed to identify metabolites that have different concentrations between castrated males and intact gilts. To address the random nature of feature selection, multiple Boruta runs were generated, nested within a 10-fold cross validation, resulting in 1,250 Boruta datasets. These datasets helped identify 40 informative metabolites, with a reduced core of 15 metabolites consistently confirmed across all runs. Their calculated random forest Out-Of-Bag (OOB) error was 0.25 and 0.27, respectively. The relevance, ranking and predictive ability of each selected metabolite were determined based on the Mean Decrease Gini (MDG) and the area under the curve (AUC) of the Receiver Operating Characteristic (ROC) curve analysis, with MDG values of 0.024±0.007 and 0.030±0.009 and AUC values of 0.62±0.04 and 0.65±0.03 for the two metabolite sets, respectively. Of the 40 selected metabolites, 60% had higher concentrations in castrated males than in intact gilts, while in the 15 metabolites set, this percentage was 80%. Network and biological pathways analyses indicated that the selected metabolites were primarily amino acids and lipids, many of which belonged to their respective sub-pathways, suggesting minimal biological differences between castrated males and intact gilts. These findings support previous results obtained using a targeted metabolomic platform. This study represents the largest investigation to date on the pig sex metabolome, providing essential biological insights that could inform precise husbandry and feeding strategies in pigs, taking into consideration the castration status of the males.

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从猪血浆高通量代谢组学中获得的去势公母猪和完整后备母猪之间代谢差异的描述。

手术阉割的公猪通常在猪肉生产系统中生产，与完整的母猪（后备母猪）相比，其生产效率略低。这主要是由于不利的饲料转化率和较胖的胴体。这些受生理和遗传因素影响的差异可以通过代谢组学来识别，代谢组学描述了代谢谱。在这项研究中，我们使用非靶向代谢组学分析了694头意大利大白猪（228头阉割公猪和466头完整母猪）的血浆。代谢组学图谱包括731种代谢物，覆盖98个子通路。原始的代谢组学数据被清理并使用链式方程的多变量归算。然后使用Boruta算法来识别阉割雄性和完整后备母猪之间具有不同浓度的代谢物。为了解决特征选择的随机性，生成了多个Boruta运行，嵌套在10倍交叉验证中，得到1,250个Boruta数据集。这些数据集帮助确定了40种信息丰富的代谢物，在所有跑步中一致确认了15种代谢物的减少核心。他们计算的随机森林外袋（OOB）误差分别为0.25和0.27。根据受试者工作特征（ROC）曲线分析的平均减少基尼系数（MDG）和曲线下面积（AUC）来确定各代谢物的相关性、排名和预测能力，两组代谢物的MDG值分别为0.024±0.007和0.030±0.009，AUC值分别为0.62±0.04和0.65±0.03。在选定的40种代谢物中，60%的代谢物在阉割的雄性中浓度高于完整的后备母猪，而在15种代谢物中，这一比例为80%。网络和生物学通路分析表明，选择的代谢物主要是氨基酸和脂质，其中许多属于各自的亚通路，这表明阉割雄性和完整后备母猪之间的生物学差异很小。这些发现支持先前使用靶向代谢组学平台获得的结果。这项研究代表了迄今为止对猪性别代谢组的最大调查，提供了重要的生物学见解，可以为猪的精确饲养和喂养策略提供信息，同时考虑到公猪的去势状况。

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 animal science 农林科学-奶制品与动物科学

CiteScore

4.80

自引率

12.10%

发文量

1589

审稿时长

3 months

期刊介绍： The Journal of Animal Science (JAS) is the premier journal for animal science and serves as the leading source of new knowledge and perspective in this area. JAS publishes more than 500 fully reviewed research articles, invited reviews, technical notes, and letters to the editor each year. Articles published in JAS encompass a broad range of research topics in animal production and fundamental aspects of genetics, nutrition, physiology, and preparation and utilization of animal products. Articles typically report research with beef cattle, companion animals, goats, horses, pigs, and sheep; however, studies involving other farm animals, aquatic and wildlife species, and laboratory animal species that address fundamental questions related to livestock and companion animal biology will be considered for publication.