Maternal metabolizable energy intake during late gestation affect energy metabolism of the skeletal muscle of beef offspring

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

Journal of animal science Pub Date : 2025-06-13 DOI:10.1093/jas/skaf203

Luiza V Kladt, Mingjia Jiang, Ziting Li, Cristina M Veloso, Koryn S Hare, Walmir Silva, Katharine M Wood, Nicola V L Serão, Mateus P Gionbelli, Michael A Steele, Marcio Duarte

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Abstract

The objective of this study was to evaluate the effects of varying levels of maternal metabolizable energy (ME) intake during late gestation on the changes in postnatal development of skeletal muscle in calves. A total of 42 primiparous (n = 21) and multiparous (n = 21) pregnant Angus-Simmental beef cows (680.8 ± 74.4 kg) were housed indoors at the Ontario Beef Research Center (OBRC) at the University of Guelph. Cows were blocked by predicted calving date, balanced by initial body weight and parity, and randomly assigned to one of three treatment diets designed to provide 92% (LME, n = 16), 104% (CME, n = 13), or 118% (HME, n = 13) of predicted ME requirements, based on a 715 kg Angus cow with BCS 7 programmed to lose 2 BCS units over late gestation. All cows were managed under a planned moderate negative energy balance starting 53 days before expected calving. At birth, calves were weighed before suckling the dam, and again day 209 at weaning. At 28 days of age, plasma and serum samples were collected for insulin, glucose, BHBA and NEFA analysis. At 30 days of age Longissimus muscle samples were biopsied from the calves and were used for mRNA expression and protein abundance for energy metabolism. All statistical analyses were performed in SAS Studio, in a mixed model including the fixed effects of treatment and parity, and the random effect of sire. No differences were observed among treatments for calf birth weight, weaning weight and metabolic profile. A lower mRNA expression of MYH1 was observed (P = 0.02) in skeletal muscle of calves from the HME and LME groups compared to the CME. An increased mRNA expression of both MYH2a (P = 0.04) and MYH2x (P = 0.01) was observed in calves from LME compared to HME, suggesting potential alterations in muscle fiber composition that may influence metabolic efficiency and growth performance. A greater mRNA expression of PPARα (P = 0.04), PPARGC1α (P = 0.04) and MEF2A (P = 0.01) were observed in calves from the LME group compared to the HME. A greater AMPK activity was observed (P = 0.01) in skeletal muscle of calves from LME group compared to CME and HME. In contrast, Akt activity was greater in HME and LME groups compared to CME (P = 0.01). Our findings suggest that maternal ME intake affected the muscle energy metabolism of the offspring, the oxidation of fatty acids, mitochondrial biogenesis and the use of muscle fiber type fuel.

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妊娠后期母体代谢能摄入对肉牛子代骨骼肌能量代谢有影响

本研究的目的是评估妊娠后期不同水平的母体代谢能（ME）摄入对犊牛出生后骨骼肌发育变化的影响。在圭尔夫大学安大略省牛肉研究中心（OBRC）室内饲养了42头初产（n = 21）和多产（n = 21）怀孕安格斯-西蒙塔尔肉牛（680.8±74.4 kg）。奶牛被预测产犊日期所限制，被初始体重和胎次所平衡，随机分配到三种处理饲粮中的一种，以715千克BCS 7的安格斯奶牛为基础，设计提供92% （LME, n = 16）、104% （CME, n = 13）或118% （HME, n = 13）的预测代谢能需求。从预期产犊前53天开始，所有奶牛在计划的适度负能量平衡下进行管理。在出生时，小牛在哺乳前称重，并在第209天断奶时再次称重。28日龄时，采集血浆和血清样本进行胰岛素、葡萄糖、BHBA和NEFA分析。30日龄时，对犊牛最长肌样本进行活组织检查，测定mRNA表达量和能量代谢蛋白丰度。所有统计分析均在SAS Studio中进行，采用混合模型，包括治疗和胎次的固定效应和胎次的随机效应。犊牛初生体重、断奶体重和代谢谱在不同处理间无差异。与CME相比，HME组和LME组犊牛骨骼肌MYH1 mRNA表达量较低（P = 0.02）。与HME相比，LME犊牛MYH2a （P = 0.04）和MYH2x (P = 0.01) mRNA表达均有所增加，表明肌纤维成分可能发生改变，影响代谢效率和生长性能。与HME相比，LME组犊牛ppara α (P = 0.04)、PPARGC1α (P = 0.04)和MEF2A (P = 0.01) mRNA表达量显著增加。与CME和HME相比，LME组犊牛骨骼肌AMPK活性显著升高（P = 0.01）。相比之下，HME和LME组的Akt活性高于CME组（P = 0.01）。我们的研究结果表明，母体的代谢能摄入影响了后代的肌能代谢、脂肪酸氧化、线粒体生物发生和肌纤维类型燃料的使用。

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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.