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Abstract Title:Integrity of a HPV11 infection cell model and identification of (-)-Epigallocatechin-3-gallate as a potential HPV11抑制剂。
抽象来源:
oncotarget。 2016年5月9日。EPUB 2016年5月9日。PMID: 27175598“> 2717598”> 27175598 Yongfang Wang, Heng Gu
Article Affiliation:Yang Sun
Abstract:BACKGROUND: Condyloma acuminatum (CA) is one of the most common sexually transmitted diseases and induced by low-risk human papillomaviruses (HPVs), mainly HPV type 6 and 11.在这里,我们通过HPV11感染细胞模型报告了( - ) - epigallocatechin-3-gallate(EGCG)。
结果: 重组HPV11.HACAT细胞具有稳定的HPV 11早期基因表达。 HPV11基因组的引入显着增加了HPV11.HACAT细胞的增殖,以及S和G2/M相中的细胞比例。用Rhifn-α2A处理后,在HACAT和HPV11.HACAT细胞中激活了IFN信号通路,而HPV11降低了激活水平。另外,Rhifn-α2a可以显着抑制HPV 11 E6和E7 mRNA的表达(P <0.05)。但是,细胞生长和细胞周期没有显示统计差异(p> 0.05)。然而,EGCG是茶多酚中的主要活性成分,表现出强烈的抗HPV11效应,抑制了HPV11 E6和E7 mRNA。 HPV11.HACAT细胞。借助已建立的细胞模型,我们探讨了( - ) - epigallocatechin-3-gallate(EGCG)对细胞生长的抗HPV11效应。iability and affection on expression HPV11 E6 and E7 mRNA.
CONCLUSION: Our data collectively demonstrated that the recombinant HPV11.HaCaT cells were integral and practical to be a cell model to test anti-HPV11 agents and explore the interaction between HPV11 genes and host cells. EGCG抑制重组HPV11.HACAT细胞中HPV11 E6和E7 mRNA的表达。