SESN2 negatively regulates cell proliferation and casein synthesis by inhibition the amino acid-mediated mTORC1 pathway in cow mammary epithelial cells
文献类型: 外文期刊
第一作者: Luo, Chaochao
作者: Luo, Chaochao;Zhao, Shengguo;Zhang, Muchen;Gao, Yanan;Wang, Jiaqi;Zheng, Nan;Luo, Chaochao;Zhao, Shengguo;Zhang, Muchen;Gao, Yanan;Wang, Jiaqi;Zheng, Nan;Hanigan, Mark D.
作者机构:
期刊名称:SCIENTIFIC REPORTS ( 影响因子:4.379; 五年影响因子:5.133 )
ISSN: 2045-2322
年卷期: 2018 年 8 卷
页码:
收录情况: SCI
摘要: Amino acids (AA) are one of the key nutrients that regulate cell proliferation and casein synthesis in cow mammary epithelial cells (CMEC), but the mechanism of this regulation is not yet clear. In this study, the effect of SESN2 on AA-mediated cell proliferation and casein synthesis in CMEC was assessed. After 12 h of AA starvation, CMECs were cultured in the absence of all AA (AA-), in the presences of only essential AA (EAA+), or of all AA (AA+). Cell proliferation, casein expression, and activation of the mammalian target of rapamycin complex 1 (mTORC1) pathway were increased; but SESN2 expression was decreased in response to increased EAA or AA supply. Overexpressing or inhibiting SESN2 demonstrated that cell proliferation, casein expression, and activation of the mTORC1 pathway were all controlled by SESN2 expression. Furthermore, the increase in cell proliferation, casein expression, and activation of the mTORC1 pathway in response to AA supply was inhibited by overexpressing SESN2, and those effects were reversed by inhibiting SESN2. These results indicate that SESN2 is an important inhibitor of mTORC1 in CMEC blocking AA-mediated cell proliferation and casein synthesis.
分类号:
- 相关文献
作者其他论文 更多>>
-
Dimerization among multiple NAC proteins mediates secondary cell wall cellulose biosynthesis in cotton fibers
作者:Chen, Feng;Qiao, Mengfei;Chen, Li;Liu, Min;Luo, Jingwen;Gao, Yanan;Li, Mengyun;Cai, Jinglong;Huang, Gengqing;Xu, Wenliang;Persson, Staffan;Persson, Staffan;Xu, Wenliang
关键词:cotton fiber; secondary cell wall; cellulose; transcriptional regulation; NAC domain proteins; dimerization; protein complex
-
Comprehensive analysis of the transcriptome-wide m6A Methylome in sheep testicular development
作者:Xi, Binpeng;Lu, Zengkui;Zhang, Rui;Li, Jianye;An, Xuejiao;Yue, Yaojing;Xi, Binpeng;Lu, Zengkui;Zhang, Rui;Li, Jianye;An, Xuejiao;Yue, Yaojing;Xi, Binpeng;Zhao, Shengguo
关键词:mRNA m6A methylation; Testicular development; F1 hybrid of Southdown x Hu sheep; Spermatogenesis
-
The Spatial Distribution Dynamics of Shark Bycatch by the Longline Fishery in the Western and Central Pacific Ocean
作者:Xia, Shengyao;Wang, Jiaqi;Yang, Yiwei;Huang, Heyang;Gao, Xiaodi
关键词:oceanic sharks; environmental preference; bycatch hotspots; longline fishery; Western and Central Pacific
-
Dual Regulation of Ionic Effect on Zostera marina L. Seed Germination and Leaf Differentiation in Low-Salinity Conditions
作者:Li, Peilong;Gao, Yaping;Jiang, Zengjie;Wang, Linjie;Li, Peilong;Jiang, Zengjie;Sun, Xiaoli;Wang, Jiaqi;Wang, Jing;Sui, Haidong;Wang, Junwei;Zhang, Yitao
关键词:germination; leaf differentiation; osmotic pressure; biochemical traits; antioxidant enzymes
-
Comparison of fatty acid characteristics in human milk, bovine milk, and infant formula for better emulation
作者:Yang, Xue;Meng, Lu;Rahman, Ashikur;Wang, Jiaqi;Zheng, Nan;Yang, Xue;Meng, Lu;Rahman, Ashikur;Wang, Jiaqi;Zheng, Nan;Yang, Xue;Meng, Lu;Rahman, Ashikur;Wang, Jiaqi;Zheng, Nan;Yang, Xue;Meng, Lu;Rahman, Ashikur;Wang, Jiaqi;Zheng, Nan
关键词:
-
The role of milk urea nitrogen in nutritional assessment and its relationship with phenotype of dairy cows: A review
作者:Zhao, Xiaowei;Zheng, Nan;Zhang, Yangdong;Wang, Jiaqi;Zhao, Xiaowei;Zhao, Xiaowei
关键词:Milk urea nitrogen; Milk production; Reproductive performance; Nitrogen efficiency; Nitrogen emission
-
Leveraging core enzyme structures for microbiota targeted functional regulation: Urease as an example
作者:Zhao, Shengguo;Zhong, Huiyue;He, Yue;Li, Xiaojiao;Xiong, Zhanbo;Zhang, Xiaoyin;Zheng, Nan;Wang, Jiaqi;Zhu, Li;Morgavi, Diego P.
关键词:core; epiberberine; function; microbiome; protein structure; rumen; urease
