Your search keyword '"Abe, Ken"' showing total 9 results

1. CD4⁺ T Cell Kinetics and Activation in Human Immunodeficiency VirusInfected Patients Who Remain Viremic Despite Long-Term Treatment with Protease Inhibitor-Based Therapy

Author

Deeks, Steven G., Hoh, Rebecca, Grant, Robert M., Wrin, Terri, Barbour, Jason D., Narvaez, Amy, Cesar, Denise, Abe, Ken, Hanley, Mary Beth, Hellmann, Nicholas S., Petropoulos, Christos J., McCune, Joseph M., and Hellerstein, Marc K.

Published

2002

2. Anti-ulcer agent teprenone inhibits hepatitis C virus replication: potential treatment for hepatitis C.

Author

Ikeda, Masanori, Kawai, Yoshinari, Mori, Kyoko, Yano, Masahiko, Abe, Ken-ichi, Nishimura, Go, Dansako, Hiromichi, Ariumi, Yasuo, Wakita, Takaji, Yamamoto, Kazuhide, and Kato, Nobuyuki

Subjects

HEPATITIS C treatment, HEPATITIS C virus, LIVER diseases, RNA, IMMUNOLOGICAL adjuvants

Abstract

Previously we reported that 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors, statins, inhibited hepatitis C virus (HCV) RNA replication. Furthermore, recent reports revealed that the statins are associated with a reduced risk of hepatocellular carcinoma and lower portal pressure in patients with cirrhosis. The statins exhibited anti-HCV activity by inhibiting geranylgeranylation of host proteins essential for HCV RNA replication. Geranylgeranyl pyrophosphate (GGPP) is a substrate for geranylgeranyltransferase. Therefore, we examined the potential of geranyl compounds with chemical structures similar to those of GGPP to inhibit HCV RNA replication. We tested geranyl compounds [geranylgeraniol, geranylgeranoic acid, vitamin K and teprenone (Selbex)] for their effects on HCV RNA replication using genome-length HCV RNA-replicating cells (the OR6 assay system) and a JFH-1 infection cell culture system. Teprenone is the major component of the anti-ulcer agent, Selbex. We also examined the anti-HCV activities of the geranyl compounds in combination with interferon (IFN)-α or statins. Among the geranyl compounds tested, only teprenone exhibited anti-HCV activity at a clinically achievable concentration. However, other anti-ulcer agents tested had no inhibitory effect on HCV RNA replication. The combination of teprenone and IFN-α exhibited a strong inhibitory effect on HCV RNA replication. Although teprenone alone did not inhibit geranylgeranylation, surprisingly, statins' inhibitory action against geranylgeranylation was enhanced by cotreatment with teprenone. The anti-ulcer agent teprenone inhibited HCV RNA replication and enhanced statins' inhibitory action against geranylgeranylation. This newly discovered function of teprenone may improve the treatment of HCV-associated liver diseases as an adjuvant to statins. [ABSTRACT FROM AUTHOR]

Published

2011

3. HCV genotype 1b chimeric replicon with NS5B of JFH-1 exhibited resistance to cyclosporine A.

Author

Abe, Ken-ichi, Ikeda, Masanori, Ariumi, Yasuo, Dansako, Hiromichi, Wakita, Takaji, and Kato, Nobuyuki

Subjects

*GENOTYPE-environment interaction, *PHENOTYPES, *GENETIC polymorphisms, *CELL culture, *RNA, *CYCLOPHILINS

Abstract

Cyclosporine A (CsA) is a well-characterized anti-HCV reagent. Recently it was reported that the genotype 2a JFH-1 strain was more resistant than genotype 1 HCV strains to CsA in a cell culture system. However, the JFH-1 responsible region for the resistance to CsA remains unclear. It was also demonstrated that in genotype 1b HCVs, NS5B interacts with cyclophilin (CyP). To clarify whether or not NS5B of JFH-1 is significant for CsA resistance, we developed a chimeric replicon with NS5B of JFH-1 in the genotype 1b backbone. The chimeric replicon was more resistant to CsA than the parental genotype 1b replicon. Furthermore, reduction of CyPA had a greater effect on HCV RNA replication and sensitivity to CsA than reduction of CyPB. Here, we demonstrated that NS5B of JFH-1 contributed to this strain’s CsA-resistant phenotype. NS5B and CyPA are significant for determining HCV’s sensitivity to CsA. [ABSTRACT FROM AUTHOR]

Published

2009

4. Development of a hepatitis C virus relapse model using genome-length hepatitis C virus ribonucleic acid-harboring cells possessing the interferon-α-resistance phenotype.

Author

Kawai, Yoshinari, Ikeda, Masanori, Abe, Ken-ichi, Yano, Masahiko, Ariumi, Yasuo, Dansako, Hiromichi, Yamamoto, Kazuhide, and Kato, Nobuyuki

Subjects

HEPATITIS C virus, HEPATITIS C, RNA, INTERFERONS, STATINS (Cardiovascular agents), CELLS

Abstract

Aim: The cure rate of current interferon (IFN) therapy is limited to approximately 50% and most of the relapses after therapy are caused by genotype-1. To develop a relapse model in cell culture, we attempted to obtain genome-length hepatitis C virus ribonucleic acid (HCV RNA) harboring cells possessing the IFN-α-resistance phenotype from previously established OR6 cells, which enabled the luciferase reporter assay for monitoring of HCV RNA replication. Methods: The IFN-α-resistant HCV RNA-harboring cells and control cells were obtained by the treatment of OR6 cells with and without IFN-α, respectively. Then, we examined the relapse of HCV in IFN-α-resistant HCV RNA-harboring cells. Results: Only type I IFN (α and β) showed significantly different anti-HCV activity between IFN-α-resistant HCV RNA-harboring cells and control cells. There was no significant difference in the anti-HCV activity of IFN-γ, fluvastatin, or cyclosporine A between the two types of cells. Furthermore, we showed that fluvastatin or cyclosporine A in combination with IFN-α could prevent the relapse after therapy in the IFN-α-resistant HCV RNA-harboring cells. Conclusion: We developed a HCV relapse model in cell culture using IFN-α-resistant HCV RNA-harboring cells. Thus anti-HCV reagents, which have a mechanism different from IFN-α, were shown to be useful for preventing a relapse of IFN-α-resistant HCV. [ABSTRACT FROM AUTHOR]

Published

2009

5. Cell culture-adaptive NS3 mutations required for the robust replication of genome-length hepatitis C virus RNA

Author

Abe, Ken-ichi, Ikeda, Masanori, Dansako, Hiromichi, Naka, Kazuhito, and Kato, Nobuyuki

Subjects

*NUCLEIC acids, *RNA, *GENOMES, *GENETICS

Abstract

Abstract: We recently established a genome-length HCV RNA-replicating cell line (O strain of genotype 1b; here called O cells) using cured cells derived from sO cells, in which HCV subgenomic replicon RNA with an adaptive NS5A mutation (S2200R) is replicated. Characterization of the O cells revealed a second adaptive NS3 mutation (K1609E) required for genome-length HCV RNA replication. To clarify the role of adaptive mutation in genome-length HCV RNA replication, we newly established one and three kinds of genome-length HCV RNA-replicating cell lines possessing the cell background of sO and O cells, respectively, and found additional adaptive NS3 mutations (Q1112R, P1115L, and E1202G) required for the robust replication of genome-length HCV RNA. We further found that specific combinations of adaptive NS3 mutations drastically enhanced HCV RNA replication, regardless of the cell lines examined. These findings suggest that specific viral factors may affect the replication level of genome-length HCV RNA. [Copyright &y& Elsevier]

Published

2007

6. Efficient replication of a full-length hepatitis C virus genome, strain O, in cell culture, and development of a luciferase reporter system

Author

Ikeda, Masanori, Abe, Ken-ichi, Dansako, Hiromichi, Nakamura, Takashi, Naka, Kazuhito, and Kato, Nobuyuki

Subjects

*HEPATITIS C virus, *LIVER cells, *RNA, *CULTURES (Biology)

Abstract

Abstract: Recently we reported a subgenomic hepatitis C virus (HCV) replicon derived from HCV (HCV-O strain) infected in non-neoplastic human hepatocyte PH5CH8. In this study, we developed a genome-length dicistronic HCV RNA from HCV-O. A cured HuH-7 cell line (sOc) was obtained from a cloned subgenomic replicon cell line (sO) by interferon (IFN) treatment and used for transfection with genome-length HCV RNA. One cloned cell line, O, was successfully selected by G418 treatment following the introduction of genome-length HCV RNA into sOc cells, and the robust expression of HCV RNA and proteins was confirmed. Oc, a cured cell line, was also obtained from the cloned cell line (O) by IFN treatment. The number of colonies increased drastically when genome-length HCV RNA was introduced into Oc cells. However, the cloned cured cell lines, sOc and Oc, differed in their colony formation efficiency despite their common origin. This result suggests that even a cloned cell line can change its characteristics during cell culture. Sequence analysis of HCV RNA from the O cells revealed an amino acid substitution in the NS3 helicase region (K1609E). This substitution worked as an adaptive mutation in transient reporter and colony formation assays. Using the advantages of this adaptive mutation and of Oc cells in colony formation, we established the first cell line in which genome-length dicistronic HCV RNA encoding a luciferase gene replicated efficiently. This culture system is useful tool for the study of HCV replication and mass screening for anti-HCV reagents. [Copyright &y& Elsevier]

Published

2005

7. Efficient replication systems for hepatitis C virus using a new human hepatoma cell line

Author

Kato, Nobuyuki, Mori, Kyoko, Abe, Ken-ichi, Dansako, Hiromichi, Kuroki, Misao, Ariumi, Yasuo, Wakita, Takaji, and Ikeda, Masanori

Subjects

*HEPATITIS C virus, *HEPATOCELLULAR carcinoma, *CELL lines, *ETIOLOGY of diseases, *LIVER diseases, *CELL culture, *RNA, *VIRAL replication, *DISEASE risk factors

Abstract

Abstract: Persistent hepatitis C virus (HCV) infection causes chronic liver diseases and is a serious global health problem. Cell culture-based persistent HCV RNA replication systems and infectious HCV production systems are widely used in HCV research. However, persistent HCV production systems have been developed only for HuH-7 hepatoma cells. Here we found a new human hepatoma cell line, Li23, that enables persistent HCV production and anti-HCV reagent assay. Li23''s cDNA expression profile differed from HuH-7''s, although the two cells had similar liver-specific expression profiles. We used HCV RNA with a specific combination of adaptive mutations to develop an HCV replicon system and genome-length HCV RNA replicating systems including a reporter assay system. Finally, Li23-derived cells persistently produced infectious virus of an HCV strain. Li23-derived cells are potentially useful for understanding the HCV life cycle and for finding antiviral targets. [Copyright &y& Elsevier]

Published

2009

8. A new living cell-based assay system for monitoring genome-length hepatitis C virus RNA replication

Author

Dansako, Hiromichi, Ikeda, Masanori, Abe, Ken-ichi, Mori, Kyoko, Takemoto, Kazunori, Ariumi, Yasuo, and Kato, Nobuyuki

Subjects

*RNA, *INTERFERONS, *FLUORESCENT polymers, *HEPATITIS C

Abstract

Abstract: We previously developed a cell-based luciferase reporter assay system for monitoring genome-length hepatitis C virus (HCV) RNA replication (OR6 assay system). Here, we aimed to develop a new living cell-based reporter assay system using enhanced green fluorescent protein (EGFP). Genome-length HCV RNAs encoding EGFP were introduced into a subline of HuH-7 cells and G418 selection was performed. One cloned cell line, OGF7, was successfully selected from among the several G418-resistant cell lines obtained, and the robust expression of HCV RNA and proteins in OGF7 cells was confirmed. The fluorescent intensity of OGF7 cells was decreased by interferon-α treatment in a dose-dependent manner, and it correlated well with the HCV RNA concentration. We demonstrated that the interferon-α sensitivity in the OGF7 assay system measuring the fluorescent intensity was equivalent to that of the OR6 assay system, and that the OGF7 assay system was useful for quantitative evaluation of anti-HCV reagents. The OGF7 assay system is expected to be the most time-saving and inexpensive assay system for high-throughput screening of anti-HCV reagents. [Copyright &y& Elsevier]

Published

2008

9. DDX3 DEAD-Box RNA Helicase Is Required for Hepatitis C Virus RNA Replication.

Author

Ariumi, Yasuo, Kuroki, Misao, Abe, Ken-ichi, Dansako, Hiromichi, Ikeda, Masanori, Wakita, Takaji, and Kato, Nobuyuki

Subjects

*RNA, *HEPATITIS C virus, *VIRAL replication, *VIRAL genomes, *LENTIVIRUSES, *CELL culture

Abstract

DDX3, a DEAD-box RNA helicase, binds to the hepatitis C virus (HCV) core protein. However, the role(s) of DDX3 in HCV replication is still not understood. Here we demonstrate that the accumulation of both genome-length HCV RNA (HCV-O, genotype 1b) and its replicon RNA were significantly suppressed in HuH-7-derived cells expressing short hairpin RNA targeted to DDX3 by lentivirus vector transduction. As well, RNA replication of JFH1 (genotype 2a) and release of the core into the culture supernatants were suppressed in DDX3 knockdown cells after inoculation of the cell culture-generated HCVcc. Thus, DDX3 is required for HCV RNA replication. [ABSTRACT FROM AUTHOR]

Published

2007