Department of Animal Science, The Pennsylvania State University, University Park 16802.
Provimi, Brookville, OH 45309.
J Dairy Sci. 2020 Jan;103(1):439-446. doi: 10.3168/jds.2019-16296. Epub 2019 Nov 14.
In early-weaning programs, dietary effects on calf rumen development have been studied extensively, but very little information is available about the effects of a solid diet on hepatic metabolism in preweaned dairy calves. The objective of this experiment was to determine the effect of physical form of oats in calf starter on the expression of key hepatic gluconeogenic, β-oxidation, and acute phase protein genes in preweaned dairy calves. Samples were analyzed from 3 experiments that fed either ground or whole oats in calf starters. Briefly, 7 calves were slaughtered at 5 wk of age in experiment 1, 6 were slaughtered at 6 wk in experiment 2, and 7 were slaughtered at 7 wk in experiment 3, and liver tissue was collected for gene expression analysis. Calves from experiments 1 and 2 were cannulated, and their rumen pH and volatile fatty acids were measured during treatment periods. The mRNA expression of gluconeogenic enzymes pyruvate carboxylase (PC), cytosolic and mitochondrial phosphoenolpyruvate carboxykinase (PCK1 and PCK2), fatty acid oxidation enzyme carnitine palmitoyltransferase I (CPT1), and positive acute phase protein haptoglobin (HPT) was measured by real-time quantitative reverse-transcriptase PCR. Expression of HPT was greater in calves fed whole oats than in calves fed ground oats; however, PC, PCK1, PCK2, and CPT1 were not affected by the physical form of oats. All enzymes (PCK1, PCK2, HPT, and CPT1) except PC were affected by experiment; PCK1 and CPT1 had greater expression in experiment 2 than in experiments 1 and 3. Expression of PCK2 was similar in experiments 2 and 3 but greater than experiment 1. Expression of HPT was similar in experiments 1 and 2 but greater than experiment 3. The mRNA expression of enzymes PCK1, PCK2, and CPT1 differed between experiments 1 and 2 and was negatively correlated with rumen propionate and butyrate but had a positive relationship with rumen acetate. Similarly, rumen pH was different in experiments 1 and 2, averaging 5.69 in experiment 1 and 4.81 in experiment 2, and there was a negative correlation between mRNA expression of rate-limiting gluconeogenic PCK1, PCK2, and β-oxidation CPT1 enzymes and rumen pH of calves in experiments 1 and 2. We concluded that the physical form of oats in calf starter did not affect gene expression of gluconeogenic and β-oxidation enzymes in preweaned dairy calves. However, lower rumen pH may be related to the upregulation of these enzymes.
在早期断奶计划中,人们广泛研究了饮食对小牛瘤胃发育的影响,但关于固体饲料对未断奶奶牛肝脏代谢的影响,信息却非常有限。本试验的目的是确定小牛开食料中燕麦的物理形式对未断奶奶牛肝脏糖异生、β-氧化和急性期蛋白关键基因表达的影响。该研究分析了饲喂粉碎或整粒燕麦的 3 个试验的样本。简要地说,在试验 1 中,7 头小牛在 5 周龄时被屠宰,在试验 2 中,6 头小牛在 6 周龄时被屠宰,在试验 3 中,7 头小牛在 7 周龄时被屠宰,采集肝脏组织进行基因表达分析。在试验 1 和 2 中,对小牛进行了插管,在处理期间测量了它们的瘤胃 pH 和挥发性脂肪酸。通过实时定量逆转录聚合酶链反应测定糖异生酶丙酮酸羧激酶(PC)、细胞质和线粒体磷酸烯醇丙酮酸羧激酶(PCK1 和 PCK2)、脂肪酸氧化酶肉碱棕榈酰转移酶 I(CPT1)和急性期蛋白触珠蛋白(HPT)的 mRNA 表达。整粒燕麦组小牛的 HPT 表达高于粉碎燕麦组,但燕麦的物理形式并不影响 PC、PCK1、PCK2 和 CPT1 的表达。除 PC 外,所有酶(PCK1、PCK2、HPT 和 CPT1)均受试验影响;PCK1 和 CPT1 在试验 2 中的表达高于试验 1 和 3。PCK2 的表达在试验 2 和 3 中相似,但高于试验 1。HPT 的表达在试验 1 和 2 中相似,但高于试验 3。试验 1 和 2 中 PCK1、PCK2 和 CPT1 酶的 mRNA 表达不同,与瘤胃丙酸和丁酸呈负相关,但与瘤胃乙酸呈正相关。同样,试验 1 和 2 中的瘤胃 pH 不同,试验 1 中的平均 pH 为 5.69,试验 2 中的平均 pH 为 4.81,试验 1 和 2 中小牛瘤胃 pH 与限速糖异生 PCK1、PCK2 和 β-氧化 CPT1 酶的 mRNA 表达呈负相关。我们得出结论,小牛开食料中燕麦的物理形式并不影响未断奶奶牛糖异生和β-氧化酶的基因表达。然而,较低的瘤胃 pH 可能与这些酶的上调有关。
