Mammary epithelial cell exfoliation increases as milk yield declines, lactation progresses, and parity increases

H.H. Webster, A.J. Lengi, B.A. Corl
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Abstract

Milk yield (MY) naturally declines after peak lactation. One approach to improving production is to increase lactation persistency, or the length of time a cow maintains lactation. To do so, cows must maintain functional secretory mammary epithelial cells (MEC), which synthesize milk. Some viable MEC are exfoliated from the udder into milk. The objective of this experiment was to identify the magnitude and direction of association between exfoliated MEC and MY, days in milk (DIM), and parity. Our hypothesis was that MY and the quantity of exfoliated MEC were negatively correlated. Therefore, milk from low-yielding, late-lactation, and primiparous cows would contain more MEC. Thirty-six multiparous and 12 primiparous Holstein cows were sampled once during lactation. Flow cytometry was used to identify hematopoietic cells and MEC in milk using an antibody specific for cluster of differentiation-45 (CD45) and an antibody against butyrophilin 1A1 (BTN), respectively. Nucleated cells were stained with Hoechst dye, and propidium iodide was used to identify dead cells. For statistical analysis, we analyzed the effect of parity, MY, and DIM, and DIM2 on the number and concentration of both total and live exfoliated MEC. Primiparous cows exfoliated fewer MEC and had a lower concentration of MEC in milk than multiparous cows regardless of lactation stage. This could reflect continued mammary growth in first lactation. Cows shed an average of 9.80 × 107 ± 6.907 MEC (LSM ± SEM) with a concentration of 4,582 ± 3,574 cells/mL in one milking. Milk yield was inversely related to concentration of both total and live MEC in milk. Similarly, cows in late lactation, which is associated with MY decline, exfoliated a greater number of MEC into milk. Primiparous cows had a lower MY and shed fewer total and live MEC in this study. The relationship of MY and DIM with MEC losses in milk may also contribute to declining MEC number in the mammary gland found in postpeak lactation. Understanding MEC exfoliation regulation could help develop husbandry practices that improve secretory cell retention in the mammary gland and increase lactation persistency.
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随着产奶量下降、泌乳期延长和胎次增加,乳腺上皮细胞脱落增加
泌乳高峰过后,牛奶产量(MY)会自然下降。提高产量的方法之一是提高泌乳持续率,即奶牛维持泌乳的时间。为此,奶牛必须保持功能性分泌型乳腺上皮细胞(MEC),它能合成牛奶。一些有活力的乳腺上皮细胞会从乳房中脱落变成乳汁。本实验的目的是确定脱落的乳腺上皮细胞与MY、产奶天数(DIM)和胎次之间的关联程度和方向。我们的假设是,MY 与脱落 MEC 的数量呈负相关。因此,低产、晚泌乳和初产奶牛的牛奶中会含有更多的脱落MEC。在泌乳期对 36 头多产荷斯坦奶牛和 12 头初产荷斯坦奶牛采样一次。采用流式细胞术分别用特异性分化簇-45(CD45)抗体和丁淀粉样蛋白 1A1 (BTN) 抗体鉴定牛奶中的造血细胞和 MEC。有核细胞用 Hoechst 染料染色,死细胞用碘化丙啶染色。为了进行统计分析,我们分析了奇偶性、MY、DIM 和 DIM2 对总脱落 MEC 和活 MEC 的数量和浓度的影响。与多胎奶牛相比,无论泌乳阶段如何,初产奶牛脱落的 MEC 数量较少,牛奶中 MEC 的浓度较低。这可能反映了第一泌乳期乳腺的持续增长。奶牛在一次挤奶中平均脱落 9.80 × 107 ± 6.907 个MEC(LSM ± SEM),浓度为 4,582 ± 3,574 cells/mL。产奶量与牛奶中的总活细胞和活细胞浓度成反比。同样,泌乳后期的奶牛(与MY下降有关)在牛奶中脱落的MEC数量较多。在本研究中,初产奶牛的MY较低,脱落的总MEC和活MEC较少。MY和DIM与牛奶中MEC损失的关系也可能导致泌乳后期乳腺中MEC数量的下降。了解 MEC 的脱落调节有助于制定饲养方法,改善乳腺中分泌细胞的保留,提高泌乳持续率。
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JDS communications
JDS communications Animal Science and Zoology
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