Takeya Tsutsumi

Molecular Determinants for Subcellular Localization of Hepatitis C Virus Core Protein

ABSTRACT Hepatitis C virus (HCV) core protein is a putative nucleocapsid protein with a number of regulatory functions. In tissue culture cells, HCV core protein is mainly located at the endoplasmic reticulum as well as mitochondria and lipid droplets within the cytoplasm. However, it is also detected in the nucleus in some cells. To elucidate the mechanisms by which cellular trafficking of the protein is controlled, we performed subcellular fractionation experiments and used confocal microscopy to examine the distribution of heterologously expressed fusion proteins involving various deletions and point mutations of the HCV core combined with green fluorescent proteins. We demonstrated that a region spanning amino acids 112 to 152 can mediate association of the core protein not only with the ER but also with the mitochondrial outer membrane. This region contains an 18-amino-acid motif which is predicted to form an amphipathic α-helix structure. With regard to the nuclear targeting of the core protein, we identified a novel bipartite nuclear localization signal, which requires two out of three basic-residue clusters for efficient nuclear translocation, possibly by occupying binding sites on importin-α. Differences in the cellular trafficking of HCV core protein, achieved and maintained by multiple targeting functions as mentioned above, may in part regulate the diverse range of biological roles of the core protein.

Molecular Mechanism of Viral Hepatocarcinogenesis

Overwhelming lines of epidemiological evidence have indicated that chronic infection with hepatitis B virus (HBV) or hepatitis C virus (HCV) is a major risk for the development of hepatocellular carcinoma (HCC). In the pathogenesis of HCC associated with HBV or HCV, it remains controversial whether these hepatitis viruses play a direct role or merely an indirect role. By virtue of transgenic mice established by us, it has become evident that the product of the HBV X gene (HBx protein) and the core protein of HCV have an oncogenic potential, although the pathways through which these two viral proteins operate may differ. The findings in our studies indicate that HBV and HCV are directly involved in hepatocarcinogenesis, albeit other factors such as continued cell death and regeneration associated with chronic hepatitis may play a role as well. Combined, our results suggest that there might be a mechanism in the development of HCC in persistent infection with hepatitis viruses that is distinct from that in other cancers. Similarly to the pathogenesis of other malignancies represented by colorectal cancer, the accumulation of a set of genetic aberrations may also be necessary for a multistage development of HCC. However, HBx protein and HCV core protein, to which an oncogenic potential is attributed, may allow some of the multiple stages skipped in hepatocarcinogenesis. Unlike for the other cancers, therefore, infection with HBV or HCV may be capable of inducing HCC in the absence of a complete set of genetic aberrations. Such a scenario would explain an unusually high incidence and multicentric nature of HCC developing in chronic hepatitis B or C.

Steatosis and intrahepatic hepatitis C virus in chronic hepatitis

Hepatic steatosis has been reported as one of the characteristics which discriminates hepatitis C from other forms of hepatitis, besides lymphoid follicles and bile duct damage. However, it is unclear whether or not the presence of hepatitis C virus (HCV) itself is associated with the development of steatosis. The possibility that the HCV itself is directly related to the development of steatosis was examined. The intrahepatic core protein levels, as a marker of the HCV load, were correlated with the presence of steatosis in 43 patients with chronic hepatitis C. Among 43 patients studied by Western blotting, the core protein was detected in the liver in 27 (62.8%). On the other hand, hepatic steatosis was observed in 21 (48.8%) of the 43 patients. Importantly, the core protein was detectable in 19 (90.4%) of the 21 patients with steatosis, while it was detected in only 8 (36.4%) of the 22 patients without steatosis (P = 0.008). However, serum HCV‐RNA levels as determined by the Amplicor monitor were not significantly different between patients with and without steatosis. Multivariate analysis showed that the serum alanine aminotransferase level (P = 0.013), body mass index (P = 0.038), and intrahepatic HCV core protein positivity (P = 0.038) were the independent parameters best predictive of steatosis. These results indicate a close relationship between intrahepatic HCV and the development of steatosis, and suggest a possible role of the HCV itself or core protein in the pathogenesis of steatosis in human chronic hepatitis C. J. Med. Virol. 59:141–145, 1999.

Virologic Analysis of Non-B, Non-C Hepatocellular Carcinoma in Japan: Frequent Involvement of Hepatitis B Virus

Serum and liver tissues from hepatitis B surface antigen-negative/anti-hepatitis C virus (HCV)-negative (non-B, non-C) hepatocellular carcinoma (HCC) patients in Japan were examined for the presence of hepatitis B virus (HBV), HCV, and TT virus (TTV) by polymerase chain reaction. The studies evaluated the contribution of these viruses to pathogenesis of HCC. HBV DNA was detected in the sera of 20 (47.6%) of 42 non-B, non-C HCC patients, which was significantly higher than in age-matched controls without liver disease (P<.001). In 8 of 12 patients with liver tissues available, HBV DNA was detected in cancerous and adjacent noncancerous liver tissues. No HCV RNA was detected. The positivity for TTV DNA was not significantly different between HCC patients and controls. These results indicate that HBV is associated with a substantial proportion of non-B, non-C HCC cases in Japan. The role of HBV in hepatocarcinogenesis in such patients needs to be clarified.

Frequent presence of HBV in the sera of HBsAg‐negative, anti‐HBc‐positive blood donors

BACKGROUND: Recent studies have revealed that HBV may not be cleared even after the disappearance of serum HBsAg. The purpose of this study was to investigate whether the replication of HBV persists in HBsAg‐negative blood donors who lack apparent liver disease.

INDUCTION OF APOPTOSIS AFTER SWITCH-ON OF THE HEPATITIS B VIRUS X GENE MEDIATED BY THE CRE/LOXP RECOMBINATION SYSTEM

The HBx protein of hepatitis B virus is a multifunctional protein that is implicated in the pathogenesis of hepatocellular carcinoma by regulating gene transcription, causing cell proliferation and, as shown recently, inducing cell death. However, analysis of the effects of HBx in stable cultured cell clones has been hampered because only cell lines that adapted to the effects of HBx were selected during the establishment of cell clones. Here, we describe a system in which transcription of the X gene of hepatitis B virus is switched on by the use of the site-specific Cre recombinase. Two human liver cell lines, HLF and HepG2, were used, the former with a mutant p53 allele and the latter with wild-type p53. The stable cell clones isolated, which carried the X gene in a transcriptionally silent state, were infected with recombinant adenovirus carrying Cre recombinase. Ninety-six hours after adenovirus infection, cell clones that expressed HBx had undergone TUNEL-positive cell death with characteristics of apoptosis. Apoptosis was induced despite concomitant inactivation of the p53 protein as a result of its cytoplasmic translocation by HBx. In contrast, neither the X gene-carrying cells infected with wild-type adenovirus nor various control cells infected with Cre-expressing adenovirus exhibited apoptosis. These results indicate that the expression of HBx protein leads to liver cell apoptosis independently of the p53 pathway. The significance of HBx-induced apoptosis in natural infection is unclear, but it may contribute to the development of hepatitis and serve to spread progeny virus to neighbouring cells while evading the host immune responses.

Proteomics analysis of mitochondrial proteins reveals overexpression of a mitochondrial protein chaperon, prohibitin, in cells expressing hepatitis C virus core protein

The hepatitis C virus (HCV) core protein is involved in viral pathogenesis such as oxidative stress induction and lipid metabolism disturbance, and is primarily located in the cytoplasm and endoplasmic reticulum in association with lipid droplets as well as in the mitochondria. To clarify the impact of the core protein on mitochondria, we analyzed the expression pattern of mitochondrial proteins in core protein‐expressing cells by two‐dimensional polyacrylamide gel electrophoresis. Several proteins related to the mitochondrial respiratory chain or protein chaperons were identified by mass spectrometry. Among the identified proteins with consistently different expressions, prohibitin, a mitochondrial protein chaperon, was up‐regulated not only in core‐expressing cells but also in full‐genomic replicon cells and livers of core‐gene transgenic mice. The stability of prohibitin was increased through interaction with the core protein. Further analysis demonstrated that interaction of prohibitin with mitochondrial DNA‐encoded subunits of cytochrome c oxidase (COX) was disturbed by the core protein, resulting in a significant decrease in COX activity. Conclusion: The HCV core protein affects the steady‐state levels of a subset of mitochondrial proteins including prohibitin, which may lead to an impaired function of the mitochondrial respiratory chain with the overproduction of oxidative stress. (HEPATOLOGY 2009.)

Compensatory apoptosis in preneoplastic liver of a transgenic mouse model for viral hepatocarcinogenesis.

The HBx protein of hepatitis B virus has been shown to induce hepatocellular carcinoma in transgenic mice as direct evidence for its involvement in hepatocarcinogenesis. In these transgenic mice, however, it is not clear why hepatocytes do not acquire a neoplastic phenotype by 13 months old despite the continuous growth stimulation by the HBx protein from 2 months old. In this study, we show that the accelerated proliferation of hepatocytes is counterbalanced by apoptosis, which maintains liver homeostasis. A decrease in the extent of apoptosis seems to precede the emergence of neoplasia in the transgenic mouse liver. The disappearance or block of apoptotic signals, which may be the result of additional genetic or epigenetic aberrations, may result in the preneoplastic hepatocytes becoming neoplastic.

Frequent β-catenin aberration in human hepatocellular carcinoma

Abstract Recently, mutations in the β-catenin gene in hepatocellular carcinoma (HCC) have been reported: approximately 20% of HCCs had activating mutations at the glycogen synthase kinase 3β phosphorylation sites within the exon 3 of the β-catenin gene. However, changes in the level of the β-catenin protein in HCC have not been well studied. We examined, by Western blotting, the expression level of the β-catenin protein in cancerous tissues in comparison with that in adjacent non-cancerous tissues obtained from 32 cases of HCC with hepatitis C. An increase in the β-catenin protein level in cancerous tissue compared to that in adjacent non-cancerous tissue was found in 15 (46.9%) of 32 cases of HCC. Mutation in exon 3 of the β-catenin gene was found in six (18.8%) of the 32 cases, in five of which the β-catenin protein level was increased. In total, β-catenin aberration was found in 16 (50.0%) of 32 cases of HCC. It should be noted that β-catenin aberration was also found in early HCC although it was observed chiefly in advanced HCCs. These results indicate that β-catenin aberration is a frequent event in the development of HCC and may facilitate the development of HCC in the course of chronic hepatitis.

Serum lipid profile of patients with genotype 1b hepatitis C viral infection in Japan

Hepatitis C virus (HCV) infection is associated with the development of steatosis in the liver. Recently, infection with genotype 3a HCV has been reported to have a closer association with hepatic steatosis than that with genotype 1 or 2 HCV. Moreover, infection with genotype 3a HCV but not with genotype 1 has been shown to be associated with serum hypocholesterolemia or hypobetalipoproteinemia in European countries. We conducted a case control study to characterize the serum lipid profile in patients infected with genotype 1b HCV, which is the most prevalent HCV genotype in Japan. These patients had significantly lower serum cholesterol levels than those infected with HBV or genotype 2a HCV who had similar liver disease progression and body mass index. Further analysis of serum apolipoproteins revealed that not only apolipoprotein B but also apolipoprotein CII and apolipoprotein CIII levels were significantly reduced, while apolipoprotein AI, AII and E levels were similar in patients infected with genotype 1b HCV and those with HBV or genotype 2a HCV. These results indicate that, in Japan, infection with genotype 1b HCV is a cause of lipid metabolism disturbances, which may be associated with the pathogenesis of hepatitis C liver disease.