Department of Molecular Genetics, Weizmann Institute of Science, Rehovot, Israel.
Hepatology. 2010 May;51(5):1538-46. doi: 10.1002/hep.23519.
Hepatitis B virus (HBV) causes liver diseases from acute hepatitis to cirrhosis and liver cancer. Currently, more than 350 million people are chronic HBV carriers, with devastating prognosis. HBV is a small enveloped noncytopathic virus, containing a circular partially double-stranded DNA genome, and exhibits strong tropism for human liver cells. Infected individuals (acute and chronic) secrete about 10(7) to 10(11) virions per day to the bloodstream, with each infected cell releasing 50-300 viruses per day. HBV infects nondividing hepatocytes and replicates by reverse-transcribing the pregenomic RNA to DNA in the host cells. The level of deoxyribonucleotide triphosphates (dNTPs) in nondividing cells is too low to support viral replication and enable the high yield of secreted virions. Here, we report production of dNTPs by viral-dependent transcription activation of R2, the key component of ribonucleotide reductase (RNR), and show that this process is critical for the HBV life-cycle. This was found in an established HBV-positive cell line and was reproduced by HBV DNA-transduced cells, in both culture and mice. Furthermore, the viral hepatitis B X protein is essential in activating R2 expression by blocking access of Regulatory factor x1, a repressor of the R2 gene.
Our findings demonstrate that the hepatitis B X protein is critical in infecting nonproliferating hepatocytes, which contain a low dNTP level. In addition, we provide molecular evidence for a new mechanism of HBV-host cell interaction where RNR-R2, a critical cell-cycle gene, is selectively activated in nonproliferating cells. This mechanism may set the stage for formulating a new category of anti-HBV drugs.
乙型肝炎病毒(HBV)可导致从急性肝炎到肝硬化和肝癌等肝脏疾病。目前,超过 3.5 亿人是慢性 HBV 携带者,预后严重。HBV 是一种小的包膜非细胞病变病毒,包含一个圆形部分双链 DNA 基因组,对人类肝细胞具有很强的嗜性。受感染的个体(急性和慢性)每天向血液中分泌约 10(7)到 10(11)个病毒粒子,每个受感染的细胞每天释放 50-300 个病毒。HBV 感染非分裂肝细胞,并通过将前基因组 RNA 逆转录到宿主细胞中的 DNA 来复制。非分裂细胞中的脱氧核苷酸三磷酸(dNTP)水平太低,无法支持病毒复制并使分泌的病毒粒子产量高。在这里,我们报告了通过病毒依赖性转录激活 R2 产生 dNTP,R2 是核糖核苷酸还原酶(RNR)的关键组成部分,并表明该过程对 HBV 生命周期至关重要。这是在已建立的 HBV 阳性细胞系中发现的,并通过 HBV DNA 转导的细胞在培养和小鼠中得到了重现。此外,乙型肝炎 X 蛋白通过阻止 R2 基因的抑制剂 Regulatory factor x1 的进入,对于激活 R2 表达是必不可少的。
我们的研究结果表明,乙型肝炎 X 蛋白对于感染非增殖性肝细胞至关重要,这些肝细胞中 dNTP 水平较低。此外,我们提供了分子证据,证明了一种新的 HBV-宿主细胞相互作用机制,其中 RNR-R2 是一个关键的细胞周期基因,在非增殖细胞中被选择性激活。这种机制可能为制定新类抗 HBV 药物奠定了基础。
