The Hepatitis B Virus Ribonuclease H Is Sensitive to Inhibitors of the Human Immunodeficiency Virus Ribonuclease H and Integrase Enzymes

Nucleos(t)ide analog therapy blocks DNA synthesis by the hepatitis B virus (HBV) reverse transcriptase and can control the infection, but treatment is life-long and has high costs and unpredictable long-term side effects. The profound suppression of HBV by the nucleos(t)ide analogs and their ability...

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Autores principales: Tavis, John E., Cheng, Xiaohong, Hu, Yuan, Totten, Michael, Cao, Feng, Michailidis, Eleftherios, Aurora, Rajeev, Meyers, Marvin J., Jacobsen, E. Jon, Parniak, Michael A., Sarafianos, Stefan G.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
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Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3551811/
https://www.ncbi.nlm.nih.gov/pubmed/23349632
http://dx.doi.org/10.1371/journal.ppat.1003125
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author Tavis, John E.
Cheng, Xiaohong
Hu, Yuan
Totten, Michael
Cao, Feng
Michailidis, Eleftherios
Aurora, Rajeev
Meyers, Marvin J.
Jacobsen, E. Jon
Parniak, Michael A.
Sarafianos, Stefan G.
author_facet Tavis, John E.
Cheng, Xiaohong
Hu, Yuan
Totten, Michael
Cao, Feng
Michailidis, Eleftherios
Aurora, Rajeev
Meyers, Marvin J.
Jacobsen, E. Jon
Parniak, Michael A.
Sarafianos, Stefan G.
author_sort Tavis, John E.
collection PubMed
description Nucleos(t)ide analog therapy blocks DNA synthesis by the hepatitis B virus (HBV) reverse transcriptase and can control the infection, but treatment is life-long and has high costs and unpredictable long-term side effects. The profound suppression of HBV by the nucleos(t)ide analogs and their ability to cure some patients indicates that they can push HBV to the brink of extinction. Consequently, more patients could be cured by suppressing HBV replication further using a new drug in combination with the nucleos(t)ide analogs. The HBV ribonuclease H (RNAseH) is a logical drug target because it is the second of only two viral enzymes that are essential for viral replication, but it has not been exploited, primarily because it is very difficult to produce active enzyme. To address this difficulty, we expressed HBV genotype D and H RNAseHs in E. coli and enriched the enzymes by nickel-affinity chromatography. HBV RNAseH activity in the enriched lysates was characterized in preparation for drug screening. Twenty-one candidate HBV RNAseH inhibitors were identified using chemical structure-activity analyses based on inhibitors of the HIV RNAseH and integrase. Twelve anti-RNAseH and anti-integrase compounds inhibited the HBV RNAseH at 10 µM, the best compounds had low micromolar IC(50) values against the RNAseH, and one compound inhibited HBV replication in tissue culture at 10 µM. Recombinant HBV genotype D RNAseH was more sensitive to inhibition than genotype H. This study demonstrates that recombinant HBV RNAseH suitable for low-throughput antiviral drug screening has been produced. The high percentage of compounds developed against the HIV RNAseH and integrase that were active against the HBV RNAseH indicates that the extensive drug design efforts against these HIV enzymes can guide anti-HBV RNAseH drug discovery. Finally, differential inhibition of HBV genotype D and H RNAseHs indicates that viral genetic variability will be a factor during drug development.
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spelling pubmed-35518112013-01-24 The Hepatitis B Virus Ribonuclease H Is Sensitive to Inhibitors of the Human Immunodeficiency Virus Ribonuclease H and Integrase Enzymes Tavis, John E. Cheng, Xiaohong Hu, Yuan Totten, Michael Cao, Feng Michailidis, Eleftherios Aurora, Rajeev Meyers, Marvin J. Jacobsen, E. Jon Parniak, Michael A. Sarafianos, Stefan G. PLoS Pathog Research Article Nucleos(t)ide analog therapy blocks DNA synthesis by the hepatitis B virus (HBV) reverse transcriptase and can control the infection, but treatment is life-long and has high costs and unpredictable long-term side effects. The profound suppression of HBV by the nucleos(t)ide analogs and their ability to cure some patients indicates that they can push HBV to the brink of extinction. Consequently, more patients could be cured by suppressing HBV replication further using a new drug in combination with the nucleos(t)ide analogs. The HBV ribonuclease H (RNAseH) is a logical drug target because it is the second of only two viral enzymes that are essential for viral replication, but it has not been exploited, primarily because it is very difficult to produce active enzyme. To address this difficulty, we expressed HBV genotype D and H RNAseHs in E. coli and enriched the enzymes by nickel-affinity chromatography. HBV RNAseH activity in the enriched lysates was characterized in preparation for drug screening. Twenty-one candidate HBV RNAseH inhibitors were identified using chemical structure-activity analyses based on inhibitors of the HIV RNAseH and integrase. Twelve anti-RNAseH and anti-integrase compounds inhibited the HBV RNAseH at 10 µM, the best compounds had low micromolar IC(50) values against the RNAseH, and one compound inhibited HBV replication in tissue culture at 10 µM. Recombinant HBV genotype D RNAseH was more sensitive to inhibition than genotype H. This study demonstrates that recombinant HBV RNAseH suitable for low-throughput antiviral drug screening has been produced. The high percentage of compounds developed against the HIV RNAseH and integrase that were active against the HBV RNAseH indicates that the extensive drug design efforts against these HIV enzymes can guide anti-HBV RNAseH drug discovery. Finally, differential inhibition of HBV genotype D and H RNAseHs indicates that viral genetic variability will be a factor during drug development. Public Library of Science 2013-01-22 /pmc/articles/PMC3551811/ /pubmed/23349632 http://dx.doi.org/10.1371/journal.ppat.1003125 Text en © 2013 Tavis et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Tavis, John E.
Cheng, Xiaohong
Hu, Yuan
Totten, Michael
Cao, Feng
Michailidis, Eleftherios
Aurora, Rajeev
Meyers, Marvin J.
Jacobsen, E. Jon
Parniak, Michael A.
Sarafianos, Stefan G.
The Hepatitis B Virus Ribonuclease H Is Sensitive to Inhibitors of the Human Immunodeficiency Virus Ribonuclease H and Integrase Enzymes
title The Hepatitis B Virus Ribonuclease H Is Sensitive to Inhibitors of the Human Immunodeficiency Virus Ribonuclease H and Integrase Enzymes
title_full The Hepatitis B Virus Ribonuclease H Is Sensitive to Inhibitors of the Human Immunodeficiency Virus Ribonuclease H and Integrase Enzymes
title_fullStr The Hepatitis B Virus Ribonuclease H Is Sensitive to Inhibitors of the Human Immunodeficiency Virus Ribonuclease H and Integrase Enzymes
title_full_unstemmed The Hepatitis B Virus Ribonuclease H Is Sensitive to Inhibitors of the Human Immunodeficiency Virus Ribonuclease H and Integrase Enzymes
title_short The Hepatitis B Virus Ribonuclease H Is Sensitive to Inhibitors of the Human Immunodeficiency Virus Ribonuclease H and Integrase Enzymes
title_sort hepatitis b virus ribonuclease h is sensitive to inhibitors of the human immunodeficiency virus ribonuclease h and integrase enzymes
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3551811/
https://www.ncbi.nlm.nih.gov/pubmed/23349632
http://dx.doi.org/10.1371/journal.ppat.1003125
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