Dry Period Heat Stress Impacts Mammary Protein Metabolism in the Subsequent Lactation

被引:8
|
作者
Dado-Senn, Bethany [1 ]
Skibiel, Amy L. [2 ]
Dahl, Geoffrey E. [3 ]
Apelo, Sebastian I. Arriola [1 ]
Laporta, Jimena [1 ]
机构
[1] Univ Wisconsin, Dept Anim & Dairy Sci, Madison, WI 53706 USA
[2] Univ Idaho, Dept Anim Vet & Food Sci, Moscow, ID 83844 USA
[3] Univ Florida, Dept Anim Sci, Gainesville, FL 32608 USA
来源
ANIMALS | 2021年 / 11卷 / 09期
关键词
hyperthermia; milk; late-gestation; AMINO-ACID-METABOLISM; DAIRY-COWS; GENE-EXPRESSION; THERMAL-STRESS; MILK PROTEIN; FEED-INTAKE; BLOOD-FLOW; HOLSTEIN; TEMPERATURE; LYSINE;
D O I
10.3390/ani11092676
中图分类号
S8 [畜牧、 动物医学、狩猎、蚕、蜂];
学科分类号
0905 ;
摘要
Simple Summary Heat stress during the dry period of dairy cows reduces milk yield in the following lactation. Factors such as altered mammary metabolism could impact yields and alter milk composition, including milk protein. We sought to determine if exposure to dry period heat stress would influence mammary milk protein metabolism during the subsequent lactation. Objectives were to first determine the impact of dry period heat stress on milk protein yields and secondly characterize the amino acid and protein profiles in the mammary tissue, milk, and blood to elucidate potential carry-over impact of dry period heat stress on systems that participate directly in milk protein metabolism (i.e., mTOR). We found that heat stress during the dry period reduces milk yield, protein content, and protein yield in the subsequent lactation. The plasma amino acid profile and mammary amino acid transporters are altered in dry period heat-stressed cows, and mammary mTOR signaling proteins are differentially expressed as well. It appears that dry period heat stress impacts mammary metabolism with consequences on milk yield and protein content. The continuous production of high-quality and -quantity milk is vital as a sustainable source of protein in the face of rising global temperatures. Dry period heat stress impairs subsequent milk production, but its impact on milk protein content and yield is inconsistent. We hypothesize that dairy cow exposure to dry period heat stress will reduce milk protein synthesis in the next lactation, potentially through modified amino acid (AA) transport and compromised mTOR signaling in the mammary gland. Cows were enrolled into heat-stressed (dry-HT, n = 12) or cooled (dry-CL, n = 12) treatments for a 46-day dry period then cooled after calving. Milk yield and composition and dry matter intake were recorded, and milk, blood, and mammary tissue samples were collected at 14, 42, and 84 days in milk (DIM) to determine free AA concentrations, milk protein fractions, and mammary AA transporter and mTOR pathway gene and protein expression. Dry matter intake did not significantly differ between treatments pre- or postpartum. Compared with dry-CL cows, milk yield was decreased (32.3 vs. 37.7 +/- 1.6 kg/day) and milk protein yield and content were reduced in dry-HT cows by 0.18 kg/day and 0.1%. Further, dry-HT cows had higher plasma concentrations of glutamic acid, phenylalanine, and taurine. Gene expression of key AA transporters was upregulated at 14 and 42 DIM in dry-HT cows. Despite minor changes in mTOR pathway gene expression, the protein 4E-BP1 was upregulated in dry-HT cows at 42 DIM whereas Akt and p70 S6K1 were downregulated. These results indicate major mammary metabolic adaptations during lactation after prior exposure to dry period heat stress.
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页数:14
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