Ott M, Thyagarajan S P, Gupta S
Department of Medicine, Albert Einstein College of Medicine, Bronx 10461, USA.
Eur J Clin Invest. 1997 Nov;27(11):908-15. doi: 10.1046/j.1365-2362.1997.2020749.x.
The Phyllanthus amarus plant suppresses HBV mRNA transcription in vitro and exhibits therapeutic potential in chronic HBV carriers, although further work is necessary to define its mechanism of action. Analysis in HuH-7 cells with transfected plasmids using a luciferase reporter showed that P. amarus specifically inhibited HBV enhancer I activity. To identify the mechanism of this HBV enhancer I inhibition, liver-enriched cellular transcription factors were co-expressed in HuH-7 cells. The C/EBP alpha and beta, as well as HNF-3 alpha and beta transcription factors, significantly up-regulated the HBV enhancer I activity. In contrast, co-transfection of HNF-I alpha or beta had no effect upon the HBV enhancer I activity. Exposure to P. amarus inhibited C/EBP alpha- and beta-mediated up-regulation of HBV enhancer I activity in a dose-dependent manner, whereas HNF-3 alpha- and beta-mediated up-regulation of HBV enhancer I was unaffected. In vitro gel shifts showed that P. amarus inhibited complexing of C/EBP transcription factors to a consensus oligonucleotide sequence, whereas DNA binding of AP-1 and SP-1 transcription factors was unaffected. As P. amarus down-regulates HBV mRNA transcription by a specific mechanism involving interactions between HBV enhancer I and C/EBP transcription factors, purification and further analysis of the active P. amarus component will advance insights into its antiviral activity.
苦味叶下珠植物在体外可抑制乙肝病毒(HBV)mRNA转录,并在慢性HBV携带者中显示出治疗潜力,不过仍需进一步研究来确定其作用机制。利用荧光素酶报告基因对转染质粒的HuH-7细胞进行分析表明,苦味叶下珠可特异性抑制HBV增强子I的活性。为了确定这种对HBV增强子I抑制作用的机制,在HuH-7细胞中共表达了肝脏富集的细胞转录因子。C/EBPα和β以及HNF-3α和β转录因子可显著上调HBV增强子I的活性。相比之下,共转染HNF-Iα或β对HBV增强子I的活性没有影响。暴露于苦味叶下珠可剂量依赖性地抑制C/EBPα和β介导的HBV增强子I活性上调,而HNF-3α和β介导的HBV增强子I上调则不受影响。体外凝胶迁移实验表明,苦味叶下珠可抑制C/EBP转录因子与共有寡核苷酸序列的结合,而AP-1和SP-1转录因子的DNA结合不受影响。由于苦味叶下珠通过一种涉及HBV增强子I与C/EBP转录因子相互作用的特定机制下调HBV mRNA转录,对苦味叶下珠活性成分的纯化和进一步分析将有助于深入了解其抗病毒活性。