Department of Animal Sciences, The University of Arizona, Tucson, AZ 85721, USA.
J Dairy Sci. 2011 Apr;94(4):1917-21. doi: 10.3168/jds.2010-3722.
Study objectives were to evaluate hepatic gluconeogenic enzyme gene expression in recombinant bovine somatotropin (rbST)-treated lactating dairy cattle during heat stress (HS) or in thermal-neutral, pair-fed (PF) animals. Twenty-two multiparous (99 d in milk, 656 kg of BW) Holstein cows were subjected to 3 consecutive experimental periods (7 d each): (1) thermal neutral, (2) HS or PF, and (3) HS or PF with rbST (Posilac, administered on d 1 of period 3). Liver biopsies were obtained on the final day of each period. Heat stress conditions progressively decreased dry matter intake for the first 5 to 6 d during period 2 before stabilizing (a decrease of 6.15 kg; 30%) on d 6 and 7, and feed intake remained stable and not different from period 2 during period 3. Cytosolic phosphoenolpyruvate carboxykinase mRNA abundance increased during PF, but was unaffected by HS or bST. Pyruvate carboxylase gene expression increased during HS and PF, and administering bST decreased pyruvate carboxylase mRNA abundance during both HS and PF. Insulin-like growth factor-I gene expression increased following bST administration during HS and PF, confirming hepatic bST responsiveness. Exposure to HS leads to a change in hepatic gluconeogenic enzyme profile that appears to be dependent on plane of nutrition.
研究目的是评估在热应激(HS)或在热中性、限饲(PF)条件下,重组牛生长激素(rbST)处理泌乳奶牛的肝糖异生酶基因表达。22 头经产(泌乳 99d,体重 656kg)荷斯坦奶牛连续进行 3 个实验期(7d/期):(1)热中性,(2)HS 或 PF,(3)HS 或 PF 加 rbST(Posilac,在第 3 期第 1 天添加)。每个时期的最后一天采集肝活检。在第 2 期的前 5-6d,热应激条件逐渐降低干物质采食量,在第 6 和第 7d 稳定下来(减少 6.15kg,30%),第 3 期的采食量与第 2 期相同。PF 期间细胞质磷酸烯醇丙酮酸羧激酶 mRNA 丰度增加,但 HS 或 rbST 对其没有影响。丙酮酸羧化酶基因表达在 HS 和 PF 期间增加,添加 rbST 降低了 HS 和 PF 期间的丙酮酸羧化酶 mRNA 丰度。HS 和 PF 期间添加 rbST 后胰岛素样生长因子-I 基因表达增加,证实了肝脏对 rbST 的反应性。暴露于 HS 会导致肝糖异生酶谱发生变化,这种变化似乎依赖于营养水平。
