Montazer-Torbati F, Boutinaud M, Brun N, Richard C, Neveu A, Jaffrézic F, Laloë D, LeBourhis D, Nguyen M, Chadi S, Jammes H, Renard J-P, Chat S, Boukadiri A, Devinoy E
INRA, UMR1313 GABI, F-78350 Jouy-en-Josas, France.
INRA, UMR1348 Pegase, F-35590 Saint Gilles, France; Agrocampus Ouest, UMR1348 Pegase, F-35000 Rennes, France.
J Dairy Sci. 2016 Jun;99(6):4778-4794. doi: 10.3168/jds.2015-10532. Epub 2016 Mar 24.
Lactation performance is dependent on both the genetic characteristics and the environmental conditions surrounding lactating cows. However, individual variations can still be observed within a given breed under similar environmental conditions. The role of the environment between birth and lactation could be better appreciated in cloned cows, which are presumed to be genetically identical, but differences in lactation performance between cloned and noncloned cows first need to be clearly evaluated. Conflicting results have been described in the literature, so our aim was to clarify this situation. Nine cloned Prim' Holstein cows were produced by the transfer of nuclei from a single fibroblast cell line after cell fusion with enucleated oocytes. The cloned cows and 9 noncloned counterparts were raised under similar conditions. Milk production and composition were recorded monthly from calving until 200d in milk. At 67d in milk, biopsies were sampled from the rear quarter of the udder, their mammary epithelial cell content was evaluated, and mammary cell renewal, RNA, and DNA were then analyzed in relevant samples. The results showed that milk production did not differ significantly between cloned and noncloned cows, but milk protein and fat contents were less variable in cloned cows. Furthermore, milk fat yield and contents were lower in cloned cows during early lactation. At around 67 DIM, milk fat and protein yields, as well as milk fat, protein, and lactose contents, were also lower in cloned cows. These lower yields could be linked to the higher apoptotic rate observed in cloned cows. Apoptosis is triggered by insulin-like factor growth binding protein 5 (IGFBP5) and plasminogen activator inhibitor (PAI), which both interact with CSN1S2. During our experiments, CSN1S2 transcript levels were lower in the mammary gland of cloned cows. The mammary cell apoptotic rate observed in cloned cows may have been related to the higher levels of DNA (cytosine-5-)-methyltransferase 1 (DNMT1) transcripts, coding for products that maintain the epigenetic status of cells. We conclude, therefore, that milk production in cloned cows differs slightly from that of noncloned cows. These differences may be due, in part, to a higher incidence of subclinical mastitis. They were associated with differences in cell apoptosis and linked to variations in DNMT1 mRNA. However, milk protein and fat contents were more similar among cloned cows than among noncloned cows.
泌乳性能既取决于泌乳母牛的遗传特征,也取决于其周围的环境条件。然而,在相似的环境条件下,同一品种内仍可观察到个体差异。在克隆牛中,出生至泌乳期间环境的作用可能会得到更好的理解,因为克隆牛被认为在基因上是相同的,但首先需要明确评估克隆牛与非克隆牛之间泌乳性能的差异。文献中描述的结果相互矛盾,因此我们的目的是澄清这种情况。通过将单个成纤维细胞系的细胞核与去核卵母细胞进行细胞融合后转移,培育出了9头克隆的Prim' Holstein奶牛。克隆牛和9头非克隆对照牛在相似的条件下饲养。从产犊到产奶200天,每月记录产奶量和奶成分。在产奶67天时,从乳房后半部分采集活检样本,评估其乳腺上皮细胞含量,然后对相关样本中的乳腺细胞更新、RNA和DNA进行分析。结果表明,克隆牛和非克隆牛的产奶量没有显著差异,但克隆牛的乳蛋白和脂肪含量变化较小。此外,克隆牛在泌乳早期的乳脂肪产量和含量较低。在产奶约67天时,克隆牛的乳脂肪和蛋白质产量以及乳脂肪、蛋白质和乳糖含量也较低。这些较低的产量可能与克隆牛中观察到的较高凋亡率有关。凋亡由胰岛素样生长因子结合蛋白5(IGFBP5)和纤溶酶原激活物抑制剂(PAI)触发,它们都与CSN1S2相互作用。在我们的实验中,克隆牛乳腺中CSN1S2转录水平较低。在克隆牛中观察到的乳腺细胞凋亡率可能与编码维持细胞表观遗传状态产物的DNA(胞嘧啶-5-)-甲基转移酶1(DNMT1)转录本水平较高有关。因此,我们得出结论,克隆牛的产奶量与非克隆牛略有不同。这些差异可能部分归因于亚临床乳腺炎的发生率较高。它们与细胞凋亡的差异有关,并与DNMT1 mRNA的变化有关。然而,克隆牛之间的乳蛋白和脂肪含量比非克隆牛之间更相似。
