Fu Lin, You Yinjie, Zeng Yu, Ran Qifan, Zhou Yan, Long Rui, Yang Heng, Chen Juncai, Loor Juan J, Wang Gaofu, Zhang Li, Dong Xianwen
Chongqing Academy of Animal Sciences, Chongqing, China.
College of Veterinary Medicine, Southwest University, Chongqing, China.
Front Vet Sci. 2024 Jun 25;11:1393372. doi: 10.3389/fvets.2024.1393372. eCollection 2024.
The ratio of lysine (Lys) to methionine (Met) with 3.0: 1 is confirmed as the "ideal" profile for milk protein synthesis, but whether this ratio is suitable for milk protein synthesis under HS needs to be further studied.
To evaluate the molecular mechanism by which HS and Lys to Met ratios affect mammary cell functional capacity, an immortalized bovine mammary epithelial cell line (MAC-T) is incubated with 5 doses of Met while maintaining a constant concentration of Lys. The MAC-T cells was treated for 6 h as follow: Lys: Met 3.0: 1 (control 37°C and IPAA 42°C) or treatments under HS (42°C) with different ratios of Lys: Met at 2.0: 1 (LM20), 2.5: 1 (LM25), 3.5: 1 (LM35) and 4.0: 1 (LM40). RNA sequencing was used to assess transcriptome-wide alterations in mRNA abundance.
The significant difference between control and other groups was observed base on PCA analysis. A total of 2048 differentially expressed genes (DEGs) were identified in the IPAA group relative to the control group. Similarly, 226, 306, 148, 157 DEGs were detected in the LM20, LM25, LM35 and LM40 groups, respectively, relative to the IPAA group. The relative mRNA abundance of was upregulated and anti-apoptotic genes ( and ) was down-regulated in the IPAA group, compared to the control group ( 0.05). Compared with the IPAA group, the relative mRNA abundance of anti-apoptotic genes and casein genes () was up-regulated in the LM25 group ( 0.05). The DEGs between LM25 and IPAA groups were associated with the negative regulation of transcription RNA polymerase II promoter in response to stress (GO: 0051085, DEGs of , , ) as well as the mTOR signaling pathway (ko04150, DEGs of , , , and ). Several DEGs involved in amino acids metabolism (, , , ) and glycolysis/gluconeogenesis ( and ) were up-regulated while DEGs involved in lipolysis and beta-oxidation catabolic processes ( and ) were down-regulated.
These results suggested that increasing Met supply (Lys: Met at 2.5: 1) may help mammary gland cells resist HS-induced cell damage, while possibly maintaining lactation capacity through regulation of gene expression.
赖氨酸(Lys)与蛋氨酸(Met)的比例为3.0:1被确认为乳蛋白合成的“理想”模式,但该比例在热应激(HS)条件下是否适用于乳蛋白合成仍需进一步研究。
为评估热应激和赖氨酸与蛋氨酸比例对乳腺细胞功能能力影响的分子机制,将永生化牛乳腺上皮细胞系(MAC-T)与5种剂量的蛋氨酸一起孵育,同时保持赖氨酸浓度恒定。对MAC-T细胞进行如下6小时处理:赖氨酸:蛋氨酸3.0:1(对照37°C和IPAA 42°C)或在热应激(42°C)条件下,赖氨酸:蛋氨酸比例分别为2.0:1(LM20)、2.5:1(LM25)、3.5:1(LM35)和4.0:1(LM40)的处理。采用RNA测序评估全转录组范围内mRNA丰度的变化。
基于主成分分析(PCA)观察到对照组与其他组之间存在显著差异。相对于对照组,在IPAA组中总共鉴定出2048个差异表达基因(DEG)。同样,相对于IPAA组,在LM20、LM25、LM35和LM40组中分别检测到226、306、148和157个DEG。与对照组相比,IPAA组中[具体基因]的相对mRNA丰度上调,而抗凋亡基因([具体基因1]和[具体基因2])下调(P<0.05)。与IPAA组相比,LM25组中抗凋亡基因和酪蛋白基因([具体基因3])的相对mRNA丰度上调(P<0.05)。LM25组与IPAA组之间的DEG与应激反应中转录RNA聚合酶II启动子的负调控(GO:0051085,[具体基因4]、[具体基因5]、[具体基因6]的DEG)以及mTOR信号通路(ko04150,[具体基因7]、[具体基因8]、[具体基因9]、[具体基因10]和[具体基因11]的DEG)相关。参与氨基酸代谢([具体基因12]、[具体基因13]、[具体基因14]、[具体基因15])和糖酵解/糖异生([具体基因16]和[具体基因17])的几个DEG上调,而参与脂肪分解和β-氧化分解过程([具体基因18]和[具体基因19])的DEG下调。
这些结果表明,增加蛋氨酸供应(赖氨酸:蛋氨酸为2.5:1)可能有助于乳腺细胞抵抗热应激诱导的细胞损伤,同时可能通过基因表达调控维持泌乳能力。
