Effects of isoleucine, lysine, valine, and a group of nonessential amino acids on mammary amino acid metabolism in lactating dairy cows

IF 3.7 1区 农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
A.H. Weston, T. Fernandes, M. de Oliveira, S. Gaskin, T. Pilonero, M.D. Hanigan
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引用次数: 0

Abstract

Intracellular AA regulate milk protein synthesis within the mammary gland by modifying mammary plasma flow (MPF) and AA transporter activity. Amino acid transporters catalyze translocation using Na+ gradient, substrate gradient (uniporters), and exchange mechanisms; further, they exhibit specificity for individual AA or groups of AA with similar side-chain properties within each transport system. Nonessential AA are actively transported through Na+-dependent transporters and, thus, are often used as intracellular currencies for EAA transport through exchange transporters. Therefore, it was hypothesized that individual EAA supplementation would compete with other EAA for shared transporters, and supplementation with Ala, Gln, and Gly would stimulate EAA transport through exchange transporters. Ten primiparous lactating dairy cows were divided into 2 groups based on milk production and were randomly assigned to treatment sequences within 2 balanced 5 × 5 Latin squares by group. Period length was 14 d. Treatments were 9-d jugular infusions of (1) saline; (2) 34.5 g of Val per day; (3) a ratio of 32.7 g of Ala to 40 g of Gln to 26.7 g of Gly per day (AQG); (4) 43 g of Lys per day; or (5) 33.5 g of Ile per day. All cows were fed a common base diet formulated to contain 15.0% CP. Infusions of Ile, Lys, or AQG did not affect milk protein or milk production; however, Val infusion decreased both. The effects of Val infusion on milk protein production appeared to be partially driven by decreased DMI. The decline in milk protein percentage indicated that milk lactose production was also affected. Additionally, Val infusion increased MPF efficiency (MPF/milk; L/L) by approximately 44%. Infusion of Val tended to decrease or decreased mammary net uptakes of Lys, Leu, Met, and total AA. Infusion of Ile tended to increase its mammary net uptakes but did not affect any other AA. Infusions of Lys and AQG did not affect any mammary net uptakes. Infusion of Val tended to decrease Phe and total NEAA mammary clearance rates. Infusion with AQG stimulated Tyr clearance rates and tended to decline system N mammary clearance rates. Ratios of branched-chain AA mammary uptake to milk protein output (U:O) did not differ from 1 for Val-infused cows, which indicated that little intramammary catabolism was occurring. Additionally, the average NEAA U:O in response to all treatments except Val was 0.70, but Val-infused cows had NEAA U:O that averaged 0.09, indicating increased synthesis within the glands. The effects of Val on mammary net clearance rates of multiple EAA support the incorporation of AA limitations in ration optimizers to prevent AA imbalances. It is possible that oversupplementation of EAA other than Val may also decrease DMI and mammary activity. Identifying efficiency apexes for each of the EAA will allow more precise diet formulation and supplementation, leading to improved production efficiency.
异亮氨酸、赖氨酸、缬氨酸和一组非必需氨基酸对泌乳奶牛乳腺氨基酸代谢的影响。
细胞内氨基酸(AA)通过改变乳腺血浆流量(MPF)和 AA 转运体的活性来调节乳腺内乳汁蛋白质的合成。氨基酸转运体利用 Na+梯度、底物梯度(单转运体)和交换机制催化转运;此外,在每个转运系统中,它们对单个 AA 或侧链性质相似的 AA 组表现出特异性。非必需 AA 可通过 Na+ 依赖性转运体积极转运,因此通常被用作 EAA 通过交换转运体转运的细胞内货币。因此,假设补充单个 EAA 会与其他 EAA 竞争共享转运体,而补充 Ala、Gln 和 Gly 会刺激 EAA 通过交换转运体转运。根据产奶量将 10 头初产泌乳奶牛分为 2 组,并在 2 平衡 5 × 5 拉丁正方形内按组随机分配处理顺序。处理为 9 d 颈静脉输注 1) 生理盐水;2) 34.5 g Val/d;3) 32.7 g Ala/d:40 g Gln/d: 26.7 g Gly/d (AQG);4) 43 g Lys/d;或 5) 33.5 g Ile/d。所有奶牛均饲喂含有 15.0% CP 的普通基础日粮。输注 Ile、Lys 或 AQG 不会影响牛奶蛋白或牛奶产量;但输注 Val 则会降低牛奶蛋白或牛奶产量。输注 Val 对乳蛋白产量的影响似乎部分是由 DMI 下降引起的。牛奶蛋白质百分比的下降表明牛奶乳糖的生产也受到了影响。此外,输注 Val 使 MPF 效率(MPF/牛奶;升/升)提高了约 44%。输注缬氨酸往往会降低或减少乳腺对赖氨酸、亮氨酸、金属元素和总 AA 的净摄入量。输注 Ile 有增加其乳腺净摄入量的趋势,但不影响任何其他 AA。输注 Lys 和 AQG 不会影响任何乳腺净摄入量。输注 Val 有降低 Phe 和总 NEAA 乳腺清除率的趋势。输注 AQG 可促进 Tyr 的清除率,并有降低 System N 乳腺清除率的趋势。输注缬氨酸的奶牛乳腺摄入的 BCAA 与乳蛋白输出的比率(U:O)与 1 没有差异,这表明乳腺内几乎没有发生分解代谢。此外,除缬氨酸外,所有处理的平均 NEAA U:O 均为 0.70,但注入缬氨酸的奶牛的 NEAA U:O 平均为 0.09,这表明乳腺内的合成增加了。缬氨酸对乳腺多种 EAA 净清除率的影响支持在日粮优化剂中加入 AA 限制,以防止 AA 失衡。过量补充除缬氨酸以外的 EAA 可能也会降低 DMI 和乳腺活性。确定每种 EAA 的效率顶点将有助于更精确地配制和补充日粮,从而提高生产效率。
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 Dairy Science
Journal of Dairy Science 农林科学-奶制品与动物科学
CiteScore
7.90
自引率
17.10%
发文量
784
审稿时长
4.2 months
期刊介绍: The official journal of the American Dairy Science Association®, Journal of Dairy Science® (JDS) is the leading peer-reviewed general dairy research journal in the world. JDS readers represent education, industry, and government agencies in more than 70 countries with interests in biochemistry, breeding, economics, engineering, environment, food science, genetics, microbiology, nutrition, pathology, physiology, processing, public health, quality assurance, and sanitation.
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