Specific and nonhepatotoxic degradation of nuclear hepatitis B virus cccDNA

Julie Lucifora; Yuchen Xia; Florian Reisinger; Ke Zhang; Daniela Stadler; Xiaoming Cheng; Martin F. Sprinzl; Herwig Koppensteiner; Zuzanna Makowska; Tassilo Volz; Caroline Remouchamps; Wen Min Chou; Wolfgang E. Thasler; Norbert Hus̈er; David Durantel; T. Jake Liang; Carsten Mun̈k; Markus H. Heim; Jeffrey L. Browning; Emmanuel Dejardin; Maura Dandri; Michael Schindler; Mathias Heikenwalder; Ulrike Protzer

doi:10.1126/science.1243462

Specific and nonhepatotoxic degradation of nuclear hepatitis B virus cccDNA

Julie Lucifora
, Yuchen Xia
, Florian Reisinger
, Ke Zhang
, Daniela Stadler
, Xiaoming Cheng
, Martin F. Sprinzl
, Herwig Koppensteiner
, Zuzanna Makowska
, Tassilo Volz
, Caroline Remouchamps
, Wen Min Chou
, Wolfgang E. Thasler
, Norbert Hus̈er
, David Durantel
, T. Jake Liang
, Carsten Mun̈k
, Markus H. Heim
, Jeffrey L. Browning
, Emmanuel Dejardin

Maura Dandri, Michael Schindler, Mathias Heikenwalder, Ulrike Protzer

Chair of Virology

Research output: Contribution to journal › Article › peer-review

819 Scopus citations

Abstract

Current antiviral agents can control but not eliminate hepatitis B virus (HBV), because HBV establishes a stable nuclear covalently closed circular DNA (cccDNA). Interferon-α treatment can clear HBV but is limited by systemic side effects. We describe how interferon-α can induce specific degradation of the nuclear viral DNA without hepatotoxicity and propose lymphotoxin-β receptor activation as a therapeutic alternative. Interferon-α and lymphotoxin-β receptor activation up-regulated APOBEC3A and APOBEC3B cytidine deaminases, respectively, in HBV-infected cells, primary hepatocytes, and human liver needle biopsies. HBV core protein mediated the interaction with nuclear cccDNA, resulting in cytidine deamination, apurinic/apyrimidinic site formation, and finally cccDNA degradation that prevented HBV reactivation. Genomic DNA was not affected. Thus, inducing nuclear deaminases - for example, by lymphotoxin-β receptor activation - allows the development of new therapeutics that, in combination with existing antivirals, may cure hepatitis B.

Original language	English
Pages (from-to)	1221-1228
Number of pages	8
Journal	Science
Volume	343
Issue number	6176
DOIs	https://doi.org/10.1126/science.1243462
State	Published - 2014

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Lucifora, J., Xia, Y., Reisinger, F., Zhang, K., Stadler, D., Cheng, X., Sprinzl, M. F., Koppensteiner, H., Makowska, Z., Volz, T., Remouchamps, C., Chou, W. M., Thasler, W. E., Hus̈er, N., Durantel, D., Liang, T. J., Mun̈k, C., Heim, M. H., Browning, J. L., ... Protzer, U. (2014). Specific and nonhepatotoxic degradation of nuclear hepatitis B virus cccDNA. Science, 343(6176), 1221-1228. https://doi.org/10.1126/science.1243462

@article{22ba3c3f7e904c739645079f5c7ad209,

title = "Specific and nonhepatotoxic degradation of nuclear hepatitis B virus cccDNA",

abstract = "Current antiviral agents can control but not eliminate hepatitis B virus (HBV), because HBV establishes a stable nuclear covalently closed circular DNA (cccDNA). Interferon-α treatment can clear HBV but is limited by systemic side effects. We describe how interferon-α can induce specific degradation of the nuclear viral DNA without hepatotoxicity and propose lymphotoxin-β receptor activation as a therapeutic alternative. Interferon-α and lymphotoxin-β receptor activation up-regulated APOBEC3A and APOBEC3B cytidine deaminases, respectively, in HBV-infected cells, primary hepatocytes, and human liver needle biopsies. HBV core protein mediated the interaction with nuclear cccDNA, resulting in cytidine deamination, apurinic/apyrimidinic site formation, and finally cccDNA degradation that prevented HBV reactivation. Genomic DNA was not affected. Thus, inducing nuclear deaminases - for example, by lymphotoxin-β receptor activation - allows the development of new therapeutics that, in combination with existing antivirals, may cure hepatitis B.",

author = "Julie Lucifora and Yuchen Xia and Florian Reisinger and Ke Zhang and Daniela Stadler and Xiaoming Cheng and Sprinzl, \{Martin F.\} and Herwig Koppensteiner and Zuzanna Makowska and Tassilo Volz and Caroline Remouchamps and Chou, \{Wen Min\} and Thasler, \{Wolfgang E.\} and Norbert Hu{\"s}er and David Durantel and Liang, \{T. Jake\} and Carsten Mu{\"n}k and Heim, \{Markus H.\} and Browning, \{Jeffrey L.\} and Emmanuel Dejardin and Maura Dandri and Michael Schindler and Mathias Heikenwalder and Ulrike Protzer",

year = "2014",

doi = "10.1126/science.1243462",

language = "English",

volume = "343",

pages = "1221--1228",

journal = "Science",

issn = "0036-8075",

publisher = "American Association for the Advancement of Science",

number = "6176",

}

Lucifora, J, Xia, Y, Reisinger, F, Zhang, K, Stadler, D, Cheng, X, Sprinzl, MF, Koppensteiner, H, Makowska, Z, Volz, T, Remouchamps, C, Chou, WM, Thasler, WE, Hus̈er, N, Durantel, D, Liang, TJ, Mun̈k, C, Heim, MH, Browning, JL, Dejardin, E, Dandri, M, Schindler, M, Heikenwalder, M & Protzer, U 2014, 'Specific and nonhepatotoxic degradation of nuclear hepatitis B virus cccDNA', Science, vol. 343, no. 6176, pp. 1221-1228. https://doi.org/10.1126/science.1243462

TY - JOUR

T1 - Specific and nonhepatotoxic degradation of nuclear hepatitis B virus cccDNA

AU - Lucifora, Julie

AU - Xia, Yuchen

AU - Reisinger, Florian

AU - Zhang, Ke

AU - Stadler, Daniela

AU - Cheng, Xiaoming

AU - Sprinzl, Martin F.

AU - Koppensteiner, Herwig

AU - Makowska, Zuzanna

AU - Volz, Tassilo

AU - Remouchamps, Caroline

AU - Chou, Wen Min

AU - Thasler, Wolfgang E.

AU - Hus̈er, Norbert

AU - Durantel, David

AU - Liang, T. Jake

AU - Mun̈k, Carsten

AU - Heim, Markus H.

AU - Browning, Jeffrey L.

AU - Dejardin, Emmanuel

AU - Dandri, Maura

AU - Schindler, Michael

AU - Heikenwalder, Mathias

AU - Protzer, Ulrike

PY - 2014

Y1 - 2014

N2 - Current antiviral agents can control but not eliminate hepatitis B virus (HBV), because HBV establishes a stable nuclear covalently closed circular DNA (cccDNA). Interferon-α treatment can clear HBV but is limited by systemic side effects. We describe how interferon-α can induce specific degradation of the nuclear viral DNA without hepatotoxicity and propose lymphotoxin-β receptor activation as a therapeutic alternative. Interferon-α and lymphotoxin-β receptor activation up-regulated APOBEC3A and APOBEC3B cytidine deaminases, respectively, in HBV-infected cells, primary hepatocytes, and human liver needle biopsies. HBV core protein mediated the interaction with nuclear cccDNA, resulting in cytidine deamination, apurinic/apyrimidinic site formation, and finally cccDNA degradation that prevented HBV reactivation. Genomic DNA was not affected. Thus, inducing nuclear deaminases - for example, by lymphotoxin-β receptor activation - allows the development of new therapeutics that, in combination with existing antivirals, may cure hepatitis B.

AB - Current antiviral agents can control but not eliminate hepatitis B virus (HBV), because HBV establishes a stable nuclear covalently closed circular DNA (cccDNA). Interferon-α treatment can clear HBV but is limited by systemic side effects. We describe how interferon-α can induce specific degradation of the nuclear viral DNA without hepatotoxicity and propose lymphotoxin-β receptor activation as a therapeutic alternative. Interferon-α and lymphotoxin-β receptor activation up-regulated APOBEC3A and APOBEC3B cytidine deaminases, respectively, in HBV-infected cells, primary hepatocytes, and human liver needle biopsies. HBV core protein mediated the interaction with nuclear cccDNA, resulting in cytidine deamination, apurinic/apyrimidinic site formation, and finally cccDNA degradation that prevented HBV reactivation. Genomic DNA was not affected. Thus, inducing nuclear deaminases - for example, by lymphotoxin-β receptor activation - allows the development of new therapeutics that, in combination with existing antivirals, may cure hepatitis B.

UR - https://www.scopus.com/pages/publications/84896029673

U2 - 10.1126/science.1243462

DO - 10.1126/science.1243462

M3 - Article

C2 - 24557838

AN - SCOPUS:84896029673

SN - 0036-8075

VL - 343

SP - 1221

EP - 1228

JO - Science

JF - Science

IS - 6176

ER -

Specific and nonhepatotoxic degradation of nuclear hepatitis B virus cccDNA

Abstract

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