Hepatitis B X protein upregulates decoy receptor 3 expression via the PI3K/NF-κB pathway

Chronic hepatitis B (CHB) is associated with the development of hepatocellular carcinoma (HCC). Decoy receptor 3 (DcR3) is a tumor necrosis factor receptor that promotes tumor cell survival by inhibiting apoptosis and interfering with immune surveillance. Previous studies showed that DcR3 was overexpressed in HCC cells and that short hairpin RNA (shDcR3) sensitizes TRAIL-resistant HCC cells. However, the expression of DcR3 during hepatitis B virus (HBV) infection has not been investigated. Here, we demonstrated that DcR3 was overexpressed in CHB patients and that DcR3 upregulation was positively correlated with the HBV DNA load and liver injury (determined by histological activity index, serum alanine aminotransferase level, and aspartate aminotransferase level). We found that hepatitis B virus X protein (HBx) upregulated DcR3 expression in a dose-dependent manner, but this increase was blocked by NF-κB inhibitors. HBx also induced the activation of NF-κB, and the NF-κB subunits p65 and p50 upregulated DcR3 by directly binding to the DcR3 promoters. Inhibition of PI3K significantly downregulated DcR3 and inhibited the binding of NF-κB to the DcR3 promoters. Our results demonstrate that the HBx induced DcR3 expression via the PI3K/NF-κB pathway; this process may contribute to the development of HBV-mediated HCC.     

乙肝病毒X 蛋白通过CREB 上调HBx结合蛋白促进肝癌细胞迁移

乙型肝炎病毒X蛋白（hepatitis B virus X protein,HBx）对肝癌的发生发展具有十分重要的作用. HBx 具有促进肝癌迁移的作用,但其作用的分子机制不清. 本研究对 HBx 促进肝癌细胞迁移的分子机制进行了探讨. 伤口愈合和 Boyden’s chamber结果表明,HBx 可明显促进肝癌 HepG2 细胞迁移. 在稳定转染 HBx 的 HepG2（HepG2-X）细胞中转染 HBx 结合蛋白（hepatitis B X-interacting protein,HBXIP）的 RNA 干扰片段,可明显抑制 HBx 的促迁移作用. 免疫组化和实时定量 PCR 结果表明,HBXIP 在肝癌组织中显著高表达,并且与 HBx 表达成正相关. 荧光素酶报告基因和免疫印迹结果表明,HBx 显著增强 HBXIP 的启动子活性和蛋白质表达水平. 应用 HBx 的 RNA 干扰处理 HepG2-X 细胞,HBXIP 的启动子活性和蛋白质表达水平明显下降.将 HBXIP 启动子区的cAMP效应元件结合因子（CREB）结合位点突变后,HBx 上调 HBXIP 的作用消失. 应用 CREB 的 RNA 干扰处理肝癌细胞,在启动子水平和蛋白质水平上, HBx 对 HBXIP 的上调作用被显著抑制. 染色质免疫共沉淀结果表明,HBx 能够通过 CREB 结合到 HBXIP 的启动子上,进而发挥激活 HBXIP 的功能. 本研究结果表明,HBx 促进肝癌细胞迁移的作用是通过 CREB 上调 HBXIP 实现的. 这一发现对进一步揭示 HBx 促进肝癌细胞迁移的分子机制具有重要意义.     

RPS3a over-expressed in HBV-associated hepatocellular carcinoma enhances the HBx-induced NF-κB signaling via its novel chaperoning function

Hepatitis B virus (HBV) infection is one of the major causes of hepatocellular carcinoma (HCC) development. Hepatitis B virus X protein (HBx) is known to play a key role in the development of hepatocellular carcinoma (HCC). Several cellular proteins have been reported to be over-expressed in HBV-associated HCC tissues, but their role in the HBV-mediated oncogenesis remains largely unknown. Here, we explored the effect of the over-expressed cellular protein, a ribosomal protein S3a (RPS3a), on the HBx-induced NF-κB signaling as a critical step for HCC development. The enhancement of HBx-induced NF-κB signaling by RPS3a was investigated by its ability to translocate NF-κB (p65) into the nucleus and the knock-down analysis of RPS3a. Notably, further study revealed that the enhancement of NF-κB by RPS3a is mediated by its novel chaperoning activity toward physiological HBx. The over-expression of RPS3a significantly increased the solubility of highly aggregation-prone HBx. This chaperoning function of RPS3a for HBx is closely correlated with the enhanced NF-κB activity by RPS3a. In addition, the mutational study of RPS3a showed that its N-terminal domain (1-50 amino acids) is important for the chaperoning function and interaction with HBx. The results suggest that RPS3a, via extra-ribosomal chaperoning function for HBx, contributes to virally induced oncogenesis by enhancing HBx-induced NF-κB signaling pathway.     

Hepatitis B virus X protein drives multiple cross-talk cascade loops involving NF-κB, 5-LOX, OPN and Capn4 to promote cell migration

Hepatitis B virus X protein (HBx) plays an important role in the development of hepatocellular carcinoma (HCC). However, the mechanism remains unclear. Recently, we have reported that HBx promotes hepatoma cell migration through the upregulation of calpain small subunit 1 (Capn4). In addition, several reports have revealed that osteopontin (OPN) plays important roles in tumor cell migration. In this study, we investigated the signaling pathways involving the promotion of cell migration mediated by HBx. We report that HBx stimulates several factors in a network manner to promote hepatoma cell migration. We showed that HBx was able to upregulate the expression of osteopontin (OPN) through 5-lipoxygenase (5-LOX) in HepG2-X/H7402-X (stable HBx-transfected cells) cells. Furthermore, we identified that HBx could increase the expression of 5-LOX through nuclear factor-κB (NF-κB). We also found that OPN could upregulate Capn4 through NF-κB. Interestingly, we showed that Capn4 was able to upregulate OPN through NF-κB in a positive feedback manner, suggesting that the OPN and Capn4 proteins involving cell migration affect each other in a network through NF-κB. Importantly, NF-κB plays a crucial role in the regulation of 5-LOX, OPN and Capn4. Thus, we conclude that HBx drives multiple cross-talk cascade loops involving NF-κB, 5-LOX, OPN and Capn4 to promote cell migration. This finding provides new insight into the mechanism involving the promotion of cell migration by HBx.     

Hepatitis B Virus X Protein Upregulates mTOR Signaling through IKKβ to Increase Cell Proliferation and VEGF Production in Hepatocellular Carcinoma

Hepatocellular carcinoma (HCC), a major cause of cancer-related death in Southeast Asia, is frequently associated with hepatitis B virus (HBV) infection. HBV X protein (HBx), encoded by a viral non-structural gene, is a multifunctional regulator in HBV-associated tumor development. We investigated novel signaling pathways underlying HBx-induced liver tumorigenesis and found that the signaling pathway involving IκB kinase β (IKKβ), tuberous sclerosis complex 1 (TSC1), and mammalian target of rapamycin (mTOR) downstream effector S6 kinase (S6K1), was upregulated when HBx was overexpressed in hepatoma cells. HBx-induced S6K1 activation was reversed by IKKβ inhibitor Bay 11-7082 or silencing IKKβ expression using siRNA. HBx upregulated cell proliferation and vascular endothelial growth factor (VEGF) production, and these HBx-upregulated phenotypes were abolished by treatment with IKKβ inhibitor Bay 11-7082 or mTOR inhibitor rapamycin. The association of HBx-modulated IKKβ/mTOR/S6K1 signaling with liver tumorigenesis was verified in a HBx transgenic mouse model in which pIKKβ, pS6K1, and VEGF expression was found to be higher in cancerous than non-cancerous liver tissues. Furthermore, we also found that pIKKβ levels were strongly correlated with pTSC1 and pS6K1 levels in HBV-associated hepatoma tissue specimens taken from 95 patients, and that higher pIKKβ, pTSC1, and pS6K1 levels were correlated with a poor prognosis in these patients. Taken together, our findings demonstrate that HBx deregulates TSC1/mTOR signaling through IKKβ, which is crucially linked to HBV-associated HCC development.     

Notch1 signaling contributes to the oncogenic effect of HBx on human hepatic cells

Hepatocellular carcinoma (HCC) is a malignant tumor and hepatitis B virus X protein (HBx) plays a crucial role in its pathogenesis. The Notch1 signaling pathway is involved in various malignant tumors including liver cancers and down-regulation of Notch-1 may exert anti-tumor effects. Here, we demonstrate that inhibition of Notch1 by plasmid-based shRNA suppresses growth of human hepatic cells transfected with HBx through G0/G1 cell cycle arrest and apoptosis inhibition, possibly linked to the promoted expression of cyclin-dependent kinase inhibitor, P16, and decreased expression of apoptosis inhibitor, Bcl-2. The anti-proliferative and pro-apoptotic effects of Notch1 shRNA in HBx-transformed L02 cell may be partly mediated by down-regulation of nuclear factor-kappaB (NF-κB) binding activities, demonstrating possible cross-talk between Notch-1 and NF-κB signaling pathways. The oncogene HBx may therefore induce malignant transformation of human hepatic cells via Notch1 pathway, indicating that Notch1 plays a crucial role in HBx-related liver cancer and could be an effective therapeutic target for HCC.     

Hepatitis B virus X protein induces IKKα nuclear translocation via Akt-dependent phosphorylation to promote the motility of hepatocarcinoma cells

Hepatitis B virus (HBV) X protein (HBx) has been implicated in HBV-associated carcinogenesis through activation of IκB kinase (IKK)/nuclear factor kappa B (NF-κB) signaling pathway. Besides activating NF-κB in the cytoplasm, IKKα was found in the nucleus to regulate gene expression epigenetically in response to various stimuli. However, it is unknown whether nuclear IKKα plays a role in HBx-associated tumor progression. Moreover, the molecular mechanism underlying IKKα nuclear transport also remains to be elucidated. Here, we disclosed HBx as a new inducer of IKKα nuclear transport in hepatoma cells. HBx induced IKKα nuclear transport in an Akt-dependent manner. HBx-activated Akt promoted IKKα nuclear translocation via phosphorylating its threonine-23 (Thr23). In addition, IKKα ubiquitination enhanced by HBx and Akt also contributed to the IKKα accumulation in the nucleus, indicating the involvement of ubiquitination in Akt-increased IKKα nuclear transport in response to HBx. Furthermore, inhibition of IKKα nuclear translocation by mutation of its nuclear localization signal and Thr23 diminished IKKα-dependent cell migration. Taken together, our findings shed light on the molecular mechanism of IKKα nuclear translocation and provide a potential role of nuclear IKKα in HBx-mediated hepatocellular carcinoma (HCC) progression.     

The X protein of hepatitis B virus activates hepatoma cell proliferation through repressing melanoma inhibitory activity 2 gene

Hepatocellular carcinoma (HCC) is the fourth leading cause of cancer deaths globally. Chronic hepatitis B virus (HBV) infection accounts for over 75% of all HCC cases; however, the molecular pathogenesis of HCC is not well understood. In this study, we found that the expression of the newly identified gene melanoma inhibitory activity 2 (MIA2) was reduced by HBV infection in vitro and in vivo, and that HBV X protein (HBx) plays a major role in this regulation. Recent studies have revealed that MIA2 is a potential tumor suppressor, and that, in most HCCs, MIA2 expression is down-regulated or lost. We found that the knock-down of MIA2 in HepG2 cells activated cell growth and proliferation, suggesting that MIA2 inhibits HCC cell growth and proliferation. In addition, the over-expression of HBx alone induced cell proliferation, whereas MIA2 over-expression impaired the HBx-mediated induction of proliferation. Taken together, our results suggest that HBx activates hepatoma cell growth and proliferation through repression of the potential tumor suppressor MIA2.     

Hepatitis B virus core protein inhibits TRAIL-induced apoptosis of hepatocytes by blocking DR5 expression

Hepatitis B virus (HBV) causes chronic hepatitis in hundreds of millions of people worldwide, which can eventually lead to hepatocellular carcinoma (HCC). The molecular mechanisms underlying HBV persistence are not well understood. TRAIL, the TNF-related apoptosis-inducing ligand, has recently been implicated in hepatocyte death during HBV infection. We report here that the HBV core protein (HBc) is a potent inhibitor of TRAIL-induced apoptosis. Overexpressing HBc significantly decreased TRAIL-induced apoptosis of human hepatoma cells, whereas knocking-down HBc expression in hepatoma cells transfected with HBV genome enhanced it. When present in the same cell, HBc blocked the pro-apoptotic effect of the HBV X protein (HBx). The resistance of HBc-expressing cells to TRAIL-induced apoptosis was associated with a significant reduction in death receptor 5 (DR5) expression. Upon transfection, HBc significantly repressed the promoter activity of the human DR5 gene. Importantly, HBc gene transfer inhibited hepatocyte death in a mouse model of HBV-induced hepatitis; and in patients with chronic hepatitis, DR5 expression in the liver was significantly reduced. These results indicate that HBc may prevent hepatocytes from TRAIL-induced apoptosis by blocking DR5 expression, which in turn contributes to the development of chronic hepatitis and HCC. They also call into question the potential side effects of HBc-based vaccines.     

Hepatitis B virus X protein inhibits autophagic degradation by impairing lysosomal maturation

Deficiency in autophagy, a lysosome-dependent cell degradation pathway, has been associated with a variety of diseases especially cancer. Recently, the activation of autophagy by hepatitis B virus X (HBx) protein, which is implicated in hepatitis B virus (HBV)-associated hepatocellular carcinoma (HCC), has been identified in hepatic cells. However, the underlying mechanism and the relevance of HBx-activated autophagy to the carcinogenesis caused by HBV remain elusive. Here, by transfection of HBV genomic DNA and HBx in hepatic and hepatoma cells, we showed that HBV- or HBx-induced autophagosome formation was accompanied by unchanged MTOR (mechanistic target of rapamycin) activity and decreased degradation of LC3 and SQSTM1/p62, the typical autophagic cargo proteins. Further functional and morphological analysis indicated that HBx dramatically impaired lysosomal acidification leading to a drop in lysosomal degradative capacity and the accumulation of immature lysosomes possibly through interaction with V-ATPase affecting its lysosome targeting. Moreover, clinical specimen test showed increased SQSTM1 and immature lysosomal hydrolase CTSD (cathepsin D) in human liver tissues with chronic HBV infection and HBV-associated liver cancer. These data suggest that a repressive effect of HBx on lysosomal function is responsible for the inhibition of autophagic degradation, and this may be critical to the development of HBV-associated HCC.     

Raf kinase inhibitor protein mediated signaling inhibits invasion and metastasis of hepatocellular carcinoma

BackgroundHepatocellular carcinoma (HCC) is the most common type of liver cancer with high mortality and poor prognosis. Mitogen-activated protein kinase (MAPK) and nuclear factor kappa B (NF-κB) signaling pathways have been implicated in promoting tumor cell proliferation and invasion of HCC cells.MethodsAs a potential inhibitor of tumor metastasis, the role of Raf kinase inhibitor protein (RKIP) in HCC development and the functional relevance with MAPK and NF-κB signaling pathways were investigated. The levels of RKIP expression were examined in human HCC tissues and correlated with tumor stages and metastatic status. Function of RKIP in cellular proliferation, migration, invasion and apoptosis was investigated in HCC cell lines by either overexpressing or knocking down RKIP expression. Mouse xenograft model was established to assess the effect of RKIP expression on tumor growth.ResultsOur results demonstrated decreased RKIP expression in HCC tissues and a strong correlation with tumor grade and distant metastasis. Manipulation of RKIP expression in HCCLM3 and HepG2 cells indicated that RKIP functioned to inhibit HCC cell motility and invasiveness, and contributed to tumor growth inhibition in vivo. Mechanistic studies showed that the function of RKIP was mediated through MAPK and NF-κB signaling pathways. However, cell type-dependent RKIP regulation on these two pathways was also suggested, indicating the complex nature of signaling network.ConclusionOur study provides a better understanding on the molecular mechanisms of HCC metastasis and sets the foundation for the development of targeted therapeutics for HCC.     

Elevation of highly up-regulated in liver cancer (HULC) by hepatitis B virus X protein promotes hepatoma cell proliferation via down-regulating p18

Long noncoding RNAs (lncRNAs) play crucial roles in human cancers. It has been reported that lncRNA highly up-regulated in liver cancer (HULC) is dramatically up-regulated in hepatocellular carcinoma (HCC). Hepatitis B virus X protein (HBx) contributes importantly to the development of HCC. However, the function of HULC in HCC mediated by HBx remains unclear. Here, we report that HULC is involved in HBx-mediated hepatocarcinogenesis. We found that the expression levels of HULC were positively correlated with those of HBx in clinical HCC tissues. Moreover, we revealed that HBx up-regulated HULC in human immortalized normal liver L-O2 cells and hepatoma HepG2 cells. Luciferase reporter gene assay and chromatin immunoprecipitation (ChIP) assay showed that HBx activated the HULC promoter via cAMP-responsive element-binding protein. We further demonstrated that HULC promoted cell proliferation by methyl thiazolyl tetrazolium, 5-ethynyl-2'-deoxyuridine, colony formation assay, and tumorigenicity assay. Next, we hypothesized that HULC might function through regulating a tumor suppressor gene p18 located near HULC in the same chromosome. We found that the mRNA levels of p18 were inversely correlated with those of HULC in the above clinical HCC specimens. Then, we validated that HULC down-regulated p18, which was involved in the HULC-enhanced cell proliferation in vitro and in vivo. Furthermore, we observed that knockdown of HULC could abolish the HBx-enhanced cell proliferation through up-regulating p18. Thus, we conclude that the up-regulated HULC by HBx promotes proliferation of hepatoma cells through suppressing p18. This finding provides new insight into the roles of lncRNAs in HBx-related hepatocarcinogenesis.     

乙肝病毒感染对细胞基本自噬的影响

【目的】慢性乙肝病毒(Hepatitis B virus,HBV)感染在肝硬化和肝癌的发生过程中起着重要的作用,通过研究HBV感染对细胞基本自噬的影响,为HBV感染诱发肝癌以及HBV的免疫逃逸机理研究提供新的思路。【方法】本研究利用乙肝病毒表达质粒瞬时或稳定转染不同肝细胞,通过计数绿色荧光蛋白(greenfluorescent protein,GFP)聚集数目检测自噬小体形成,western blot检测LC3(microtubule-associated proteinlight chain 3,微管相关蛋白质轻链3)脂酰化和p62的降解,通过构建HBV B型和C型X蛋白(HBx)的表达质粒并瞬时转染肝癌细胞和正常肝细胞,对不同基因型X蛋白对细胞自噬的影响进行了分析。【结果】乙肝病毒感染后促进了LC3的脂酰化和p62的降解,增加了自噬小体的形成,增强了细胞的基本自噬。进一步研究发现,HBV感染增强的细胞基本自噬水平由HBx所引发,且C型HBx比B型对细胞基本自噬的增加更加显著。【结论】HBV通过HBx增强细胞的基本自噬,且不同基因型HBx对细胞基本自噬的增强程度不同,为进一步阐明HBV感染机理奠定了基础。     

COX-2在乙肝病毒X蛋白（HBx）促进肝癌细胞和肝细胞增殖中的作用

乙型肝炎病毒（hepatitis B virus, HBV）X蛋白（HBx）对肝癌的发生发展具有十分重要的作用．大量研究结果表明,与花生四烯酸代谢相关的磷脂酶COX-2与肿瘤细胞的增殖密切相关．为了阐明COX-2在HBx促进肝细胞增殖中的作用,在前期应用基因芯片方法检测发现稳定转染HBx 基因的肝癌细胞H7402-X中COX-2基因表达明显上调的基础上,本研究应用免疫印迹技术在蛋白表达水平上获得了相同的结果．进而,应用COX-2的特异性抑制剂Indo分别作用H7402-X细胞和L-O2-X细胞（稳定转染HBx 基因的人永生化L-O2肝细胞）,观察HBx蛋白是否通过COX-2促进肝癌细胞或肝细胞增殖．BrdU掺入实验和流式细胞仪检测结果显示,50 μmol/L的Indo可明显抑制H7402-X细胞和L-O2-X细胞的增殖．本研究结果提示,HBx可通过COX-2所介导的花生四烯酸代谢促进肝癌细胞和肝细胞增殖．     

HBx参与肝细胞癌发生发展调控的分子机制

肝细胞癌 (hepatocellular carcinoma, HCC)是我国最常见的恶性肿瘤之一,而HBV慢性感染是肝癌发生的主要原因.乙型肝炎病毒(HBV)中X基因编码的一种多功能蛋白(HBx),参与众多重要生物学过程的调控,并促进肝细胞癌的发生. 早期研究表明,HBx在HCC发生过程中发挥重要的调控功能,但其确切分子机制尚未完全明确. 近几年,HBx参与生物学过程的分子机制研究有了较快的进展. 有趣的是,研究发现,HBx在不同的细胞系以及HBV感染的不同阶段发挥促抑凋亡的双重作用,HBx还参与细胞自噬的调控. 此外,在HBx参与细胞增殖及肿瘤侵袭和转移等方面,也产生了一些新的认识. 本文将从HBx对肝细胞凋亡、自噬和增殖的调控及其对肝癌细胞转移和侵袭的调控等方面,对HBx参与肝细胞癌发生发展调控机制做一综述.