Alpha-Tocopherol Modulates Transcriptional Activities that Affect Essential Biological Processes in Bovine Cells.

Cong-Jun Li, Robert W Li, Theodore H Elsasser
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引用次数: 7

Abstract

Using global expression profiling and pathway analysis on α-tocopherol-induced gene perturbation in bovine cells, this study has generated comprehensive information on the physiological functions of α-tocopherol. The data confirmed α-tocopherol is a potent regulator of gene expression and α-tocopherol possesses novel transcriptional activities that affect essential biological processes. The genes identified fall within a broad range of functional categories and provide the molecular basis for its distinctive effects. Enrichment analyses of gene regulatory networks indicate α-tocopherol alter the canonical pathway of lipid metabolism and transcription factors SREBP1 and SREBP2, (Sterol regulatory element binding proteins), which mediate the regulatory functions of lipid metabolism. Transcription factors HNF4-α (Hepatocyte nuclear factor 4), c-Myc, SP1 (Sp1 transcription factor), ESR1 (estrogen receptor 1, nuclear), and androgen receptor, along with several others, were centered as the hubs of transcription regulation networks. The data also provided direct evidence that α-tocopherol is involved in maintaining immuno-homeostasis through targeting the C3 (Complement Component 3) gene.

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α -生育酚调节影响牛细胞基本生物过程的转录活性。
本研究通过对α-生育酚诱导的牛细胞基因扰动的全局表达谱和通路分析,对α-生育酚的生理功能有了全面的了解。数据证实α-生育酚是基因表达的有效调节剂,α-生育酚具有影响重要生物过程的新型转录活性。所鉴定的基因属于广泛的功能类别,并为其独特的作用提供了分子基础。基因调控网络富集分析表明,α-生育酚可改变脂质代谢的典型途径和介导脂质代谢调控功能的转录因子SREBP1和SREBP2。转录因子HNF4-α(肝细胞核因子4),c-Myc, SP1 (SP1转录因子),ESR1(雌激素受体1,核)和雄激素受体,以及其他几个转录调控网络的中心。这些数据也提供了α-生育酚通过靶向C3(补体成分3)基因参与维持免疫稳态的直接证据。
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