Jaitovich-Groisman I, Benlimame N, Slagle B L, Perez M H, Alpert L, Song D J, Fotouhi-Ardakani N, Galipeau J, Alaoui-Jamali M A
Lady Davis Institute of the Sir Mortimer B. Davis Jewish General Hospital, Departments of Medicine, Pharmacology and Therapeutics, Pathology, and Oncology, Faculty of Medicine, McGill University, Montreal H3T 1E2, Canada.
J Biol Chem. 2001 Apr 27;276(17):14124-32. doi: 10.1074/jbc.M010852200. Epub 2001 Jan 25.
Human hepatitis B virus is a risk factor for the development of hepatocellular carcinoma. The hepatitis B virus x protein (HBx) has been shown to inactivate the p53 tumor suppressor protein and impair DNA repair, cell cycle, and apoptosis mechanisms. Herein we report that HBx represses two components of the transcription-repair factor TFIIH, XPB (p89), and XPD (p80), both in p53-proficient and p53-deficient liver cells. This inhibition is observed while HBx maintains its transactivation function. Expression of HBx in liver cells results in down-regulation of endogenous XPB and XPD mRNAs and proteins; this inhibition is not observed with other TFIIH subunits, XPA or PCNA. In liver tissue from HBx transgenics, XPB and XPD proteins are down-regulated in comparison to matched normal liver tissue. HBx has been shown to interact with Sp1 transcription factor and affects its DNA binding activity. Sp1 is essential for the basal promoter activity of XPB in liver cells and Drosophila SL2 cells. In the Sp1-deficient SL2 cells, HBx-induced XPB and XPD inhibition is Sp1-dependent. In summary, our results provide evidence that HBx represses the expression of key TFIIH proteins at least in part through Sp1 elements; this repression may impair TFIIH function in DNA repair mechanisms.
人类乙型肝炎病毒是肝细胞癌发生的一个风险因素。乙型肝炎病毒X蛋白(HBx)已被证明可使p53肿瘤抑制蛋白失活,并损害DNA修复、细胞周期和凋亡机制。在此我们报告,在p53功能正常和p53缺陷的肝细胞中,HBx均可抑制转录修复因子TFIIH的两个组分,即XPB(p89)和XPD(p80)。在HBx维持其反式激活功能的同时可观察到这种抑制作用。在肝细胞中表达HBx会导致内源性XPB和XPD的mRNA及蛋白水平下调;而其他TFIIH亚基XPA或PCNA则未观察到这种抑制作用。在HBx转基因小鼠的肝组织中,与配对的正常肝组织相比,XPB和XPD蛋白表达下调。HBx已被证明可与Sp1转录因子相互作用并影响其DNA结合活性。Sp1对肝细胞和果蝇SL2细胞中XPB的基础启动子活性至关重要。在Sp1缺陷的SL2细胞中,HBx诱导的XPB和XPD抑制是Sp1依赖性的。总之,我们的结果提供了证据表明,HBx至少部分通过Sp1元件抑制关键TFIIH蛋白的表达;这种抑制可能损害DNA修复机制中的TFIIH功能。
