Dietary supplementation with citrus peel extract in transition period improves rumen microbial composition and ameliorates energy metabolism and lactation performance of dairy cows

IF 7 1区 农林科学 Q1 Agricultural and Biological Sciences Journal of Animal Science and Biotechnology Pub Date : 2024-11-09 DOI:10.1186/s40104-024-01110-8
Lingxue Ju, Qi Shao, Zhiyuan Fang, Erminio Trevisi, Meng Chen, Yuxiang Song, Wenwen Gao, Lin Lei, Xinwei Li, Guowen Liu, Xiliang Du
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Abstract

During the transition period, excessive negative energy balance (NEB) lead to metabolic disorders and reduced milk yield. Rumen microbes are responsible for resolving plant material and producing volatile fatty acids (VFA), which are the primary energy source for cows. In this study, we aimed to investigate the effect of citrus peel extract (CPE) supplementation on rumen microbiota composition, energy metabolism and milk performance of peripartum dairy cows. Dairy cows were fed either a basal diet (CON group) or the same basal diet supplemented with CPE via intragastric administration (4 g/d, CPE group) for 6 weeks (3 weeks before and 3 weeks after calving; n = 15 per group). Samples of serum, milk, rumen fluid, adipose tissue, and liver were collected to assess the effects of CPE on rumen microbiota composition, rumen fermentation parameters, milk performance, and energy metabolic status of dairy cows. CPE supplementation led to an increase in milk yield, milk protein and lactose contents, and serum glucose levels, while reduced serum concentrations of non-esterified fatty acid, β-hydroxybutyric acid, insulin, aspartate aminotransferase, alanine aminotransferase, and haptoglobin during the first month of lactation. CPE supplementation also increased the content of ruminal VFA. Compared to the CON group, the abundance of Prevotellaceae, Methanobacteriaceae, Bacteroidales_RF16_group, and Selenomonadaceae was found increased, while the abundance of Oscillospiraceae, F082, Ruminococcaceae, Christensenellaceae, Muribaculaceae UCG-011, Saccharimonadaceae, Hungateiclostridiaceae, and Spirochaetaceae in the CPE group was found decreased. In adipose tissue, CPE supplementation decreased lipolysis, and inflammatory response, while increased insulin sensitivity. In the liver, CPE supplementation decreased lipid accumulation, increased insulin sensitivity, and upregulated expression of genes involved in gluconeogenesis. Our findings suggest that CPE supplementation during the peripartum period altered rumen microbiota composition and increased ruminal VFA contents, which further improved NEB and lactation performance, alleviated lipolysis and inflammatory response in adipose tissue, reduced lipid accumulation and promoted gluconeogenesis in liver. Thus, CPE might contribute to improve energy metabolism and consequently lactation performance of dairy cows during the transition period.
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过渡时期日粮中添加柑橘皮提取物可改善瘤胃微生物组成,改善奶牛的能量代谢和泌乳性能
在过渡时期,过多的负能量平衡(NEB)会导致新陈代谢紊乱和产奶量下降。瘤胃微生物负责分解植物物质并产生挥发性脂肪酸(VFA),而挥发性脂肪酸是奶牛的主要能量来源。本研究旨在探讨补充柑橘皮提取物(CPE)对围产期奶牛瘤胃微生物群组成、能量代谢和产奶性能的影响。奶牛饲喂基础日粮(CON 组)或通过胃内给药补充柑橘皮提取物的相同基础日粮(4 克/天,CPE 组),连续 6 周(产前 3 周和产后 3 周;每组 n = 15)。收集血清、牛奶、瘤胃液、脂肪组织和肝脏样本,以评估 CPE 对奶牛瘤胃微生物群组成、瘤胃发酵参数、产奶性能和能量代谢状态的影响。在泌乳期的第一个月,补充 CPE 可提高产奶量、牛奶蛋白质和乳糖含量以及血清葡萄糖水平,同时降低血清中的非酯化脂肪酸、β-羟丁酸、胰岛素、天冬氨酸氨基转移酶、丙氨酸氨基转移酶和血红蛋白浓度。CPE补充剂也增加了瘤胃中挥发性脂肪酸的含量。与 CON 组相比,CPE 组中 Prevotellaceae、Methanobacteriaceae、Bacteroidales_RF16_group 和 Selenomonadaceae 的丰度增加,而 Oscillospiraceae、F082、Ruminococcaceae、Christensenellaceae、Muribaculaceae UCG-011 、Saccharimonadaceae、Hungateiclostridiaceae 和 Spirochaetaceae 的丰度降低。在脂肪组织中,补充 CPE 可减少脂肪分解和炎症反应,同时提高胰岛素敏感性。在肝脏中,补充 CPE 可减少脂质积累,提高胰岛素敏感性,并上调葡萄糖生成相关基因的表达。我们的研究结果表明,在围产期补充 CPE 可改变瘤胃微生物群的组成,增加瘤胃中的 VFA 含量,从而进一步改善 NEB 和泌乳性能,减轻脂肪组织中的脂肪分解和炎症反应,减少脂质积累,促进肝脏中的葡萄糖生成。因此,CPE 可能有助于改善过渡时期奶牛的能量代谢,进而提高其泌乳性能。
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来源期刊
Journal of Animal Science and Biotechnology
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.
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