Cell-based cccDNA reporter assay combined with functional genomics identifies YBX1 as HBV cccDNA host factor and antiviral candidate target

Eloi R. Verrier; Gaëtan Ligat; Laura Heydmann; Katharina Doernbrack; Julija Miller; Anne Maglott-Roth; Frank Jühling; Houssein El Saghire; Margaux J. Heuschkel; Naoto Fujiwara; Sen Yung Hsieh; Yujin Hoshida; David E. Root; Emanuele Felli; Patrick Pessaux; Atish Mukherji; Laurent Mailly; Catherine Schuster; Laurent Brino; Michael Nassal; Thomas F. Baumert

doi:10.1136/gutjnl-2020-323665

Cell-based cccDNA reporter assay combined with functional genomics identifies YBX1 as HBV cccDNA host factor and antiviral candidate target

Eloi R. Verrier, Gaëtan Ligat, Laura Heydmann, Katharina Doernbrack, Julija Miller, Anne Maglott-Roth, Frank Jühling, Houssein El Saghire, Margaux J. Heuschkel, Naoto Fujiwara, Sen Yung Hsieh, Yujin Hoshida, David E. Root, Emanuele Felli, Patrick Pessaux, Atish Mukherji, Laurent Mailly, Catherine Schuster, Laurent Brino, Michael NassalThomas F. Baumert

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

3 Scopus citations

Abstract

Objectives Chronic hepatitis B virus (HBV) infection is a leading cause of liver disease and hepatocellular carcinoma. A key feature of HBV replication is the synthesis of the covalently close circular (ccc)DNA, not targeted by current treatments and whose elimination would be crucial for viral cure. To date, little is known about cccDNA formation. One major challenge to address this urgent question is the absence of robust models for the study of cccDNA biology. Design We established a cell-based HBV cccDNA reporter assay and performed a loss-of-function screen targeting 239 genes encoding the human DNA damage response machinery. Results Overcoming the limitations of current models, the reporter assay enables to quantity cccDNA levels using a robust ELISA as a readout. A loss-of-function screen identified 27 candidate cccDNA host factors, including Y box binding protein 1 (YBX1), a DNA binding protein regulating transcription and translation. Validation studies in authentic infection models revealed a robust decrease in HBV cccDNA levels following silencing, providing proof-of-concept for the importance of YBX1 in the early steps of the HBV life cycle. In patients, YBX1 expression robustly correlates with both HBV load and liver disease progression. Conclusion Our cell-based reporter assay enables the discovery of HBV cccDNA host factors including YBX1 and is suitable for the characterisation of cccDNA-related host factors, antiviral targets and compounds.

Original language	English (US)
Pages (from-to)	1745-1757
Number of pages	13
Journal	Gut
Volume	72
Issue number	9
DOIs	https://doi.org/10.1136/gutjnl-2020-323665
State	Published - Sep 1 2023
Externally published	Yes

Keywords

antiviral therapy
hepatitis B

ASJC Scopus subject areas

Gastroenterology

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10.1136/gutjnl-2020-323665

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Verrier, E. R., Ligat, G., Heydmann, L., Doernbrack, K., Miller, J., Maglott-Roth, A., Jühling, F., El Saghire, H., Heuschkel, M. J., Fujiwara, N., Hsieh, S. Y., Hoshida, Y., Root, D. E., Felli, E., Pessaux, P., Mukherji, A., Mailly, L., Schuster, C., Brino, L., ... Baumert, T. F. (2023). Cell-based cccDNA reporter assay combined with functional genomics identifies YBX1 as HBV cccDNA host factor and antiviral candidate target. Gut, 72(9), 1745-1757. https://doi.org/10.1136/gutjnl-2020-323665

Verrier, ER, Ligat, G, Heydmann, L, Doernbrack, K, Miller, J, Maglott-Roth, A, Jühling, F, El Saghire, H, Heuschkel, MJ, Fujiwara, N, Hsieh, SY, Hoshida, Y, Root, DE, Felli, E, Pessaux, P, Mukherji, A, Mailly, L, Schuster, C, Brino, L, Nassal, M & Baumert, TF 2023, 'Cell-based cccDNA reporter assay combined with functional genomics identifies YBX1 as HBV cccDNA host factor and antiviral candidate target', Gut, vol. 72, no. 9, pp. 1745-1757. https://doi.org/10.1136/gutjnl-2020-323665

@article{34d9ec1a19ed43f7adfc724c37561fa4,

title = "Cell-based cccDNA reporter assay combined with functional genomics identifies YBX1 as HBV cccDNA host factor and antiviral candidate target",

abstract = "Objectives Chronic hepatitis B virus (HBV) infection is a leading cause of liver disease and hepatocellular carcinoma. A key feature of HBV replication is the synthesis of the covalently close circular (ccc)DNA, not targeted by current treatments and whose elimination would be crucial for viral cure. To date, little is known about cccDNA formation. One major challenge to address this urgent question is the absence of robust models for the study of cccDNA biology. Design We established a cell-based HBV cccDNA reporter assay and performed a loss-of-function screen targeting 239 genes encoding the human DNA damage response machinery. Results Overcoming the limitations of current models, the reporter assay enables to quantity cccDNA levels using a robust ELISA as a readout. A loss-of-function screen identified 27 candidate cccDNA host factors, including Y box binding protein 1 (YBX1), a DNA binding protein regulating transcription and translation. Validation studies in authentic infection models revealed a robust decrease in HBV cccDNA levels following silencing, providing proof-of-concept for the importance of YBX1 in the early steps of the HBV life cycle. In patients, YBX1 expression robustly correlates with both HBV load and liver disease progression. Conclusion Our cell-based reporter assay enables the discovery of HBV cccDNA host factors including YBX1 and is suitable for the characterisation of cccDNA-related host factors, antiviral targets and compounds.",

keywords = "antiviral therapy, hepatitis B",

author = "Verrier, {Eloi R.} and Ga{\"e}tan Ligat and Laura Heydmann and Katharina Doernbrack and Julija Miller and Anne Maglott-Roth and Frank J{\"u}hling and {El Saghire}, Houssein and Heuschkel, {Margaux J.} and Naoto Fujiwara and Hsieh, {Sen Yung} and Yujin Hoshida and Root, {David E.} and Emanuele Felli and Patrick Pessaux and Atish Mukherji and Laurent Mailly and Catherine Schuster and Laurent Brino and Michael Nassal and Baumert, {Thomas F.}",

note = "Funding Information: This work was supported by Inserm, the University of Strasbourg, the European Union (Infect-ERA hepBccc, ERC-2014-AdG-671231-HEPCIR, ERC-AdG-2020-FIBCAN #101021417 and Horizon 2020 research and innovation programme under grant agreement 667273 - HEPCAR), Agence Nationale de Recherches sur le Sida et les H{\'e}patites Virales (ANRS ECTZ87384) and the French Cancer Agency (ARC IHU201901299). This work of the Interdisciplinary Thematic Institute IMCBio, as part of the ITI 2021-2028 program of the University of Strasbourg, CNRS and Inserm, was supported by IdEx Unistra (ANR-10-IDEX-0002), and by SFRI-STRAT{\textquoteright}US project (ANR 20-SFRI-0012) and EUR IMCBio (ANR-17-EURE-0023) under the framework of the French Investments for the Future Program. GL is the recipient of an ANRS fellowship (ECTZ86820 and ECTZ158023). ERV acknowledges fundings from ANRS (ECTZ104527), and the French National Research Agency (ANR, grant number ANR-21-CE15-0035-01 DELTArget). Publisher Copyright: {\textcopyright} 2023 Author(s). Published by BMJ.",

year = "2023",

month = sep,

day = "1",

doi = "10.1136/gutjnl-2020-323665",

language = "English (US)",

volume = "72",

pages = "1745--1757",

journal = "Gut",

issn = "0017-5749",

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number = "9",

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TY - JOUR

T1 - Cell-based cccDNA reporter assay combined with functional genomics identifies YBX1 as HBV cccDNA host factor and antiviral candidate target

AU - Verrier, Eloi R.

AU - Ligat, Gaëtan

AU - Heydmann, Laura

AU - Doernbrack, Katharina

AU - Miller, Julija

AU - Maglott-Roth, Anne

AU - Jühling, Frank

AU - El Saghire, Houssein

AU - Heuschkel, Margaux J.

AU - Fujiwara, Naoto

AU - Hsieh, Sen Yung

AU - Hoshida, Yujin

AU - Root, David E.

AU - Felli, Emanuele

AU - Pessaux, Patrick

AU - Mukherji, Atish

AU - Mailly, Laurent

AU - Schuster, Catherine

AU - Brino, Laurent

AU - Nassal, Michael

AU - Baumert, Thomas F.

N1 - Funding Information: This work was supported by Inserm, the University of Strasbourg, the European Union (Infect-ERA hepBccc, ERC-2014-AdG-671231-HEPCIR, ERC-AdG-2020-FIBCAN #101021417 and Horizon 2020 research and innovation programme under grant agreement 667273 - HEPCAR), Agence Nationale de Recherches sur le Sida et les Hépatites Virales (ANRS ECTZ87384) and the French Cancer Agency (ARC IHU201901299). This work of the Interdisciplinary Thematic Institute IMCBio, as part of the ITI 2021-2028 program of the University of Strasbourg, CNRS and Inserm, was supported by IdEx Unistra (ANR-10-IDEX-0002), and by SFRI-STRAT’US project (ANR 20-SFRI-0012) and EUR IMCBio (ANR-17-EURE-0023) under the framework of the French Investments for the Future Program. GL is the recipient of an ANRS fellowship (ECTZ86820 and ECTZ158023). ERV acknowledges fundings from ANRS (ECTZ104527), and the French National Research Agency (ANR, grant number ANR-21-CE15-0035-01 DELTArget). Publisher Copyright: © 2023 Author(s). Published by BMJ.

PY - 2023/9/1

Y1 - 2023/9/1

N2 - Objectives Chronic hepatitis B virus (HBV) infection is a leading cause of liver disease and hepatocellular carcinoma. A key feature of HBV replication is the synthesis of the covalently close circular (ccc)DNA, not targeted by current treatments and whose elimination would be crucial for viral cure. To date, little is known about cccDNA formation. One major challenge to address this urgent question is the absence of robust models for the study of cccDNA biology. Design We established a cell-based HBV cccDNA reporter assay and performed a loss-of-function screen targeting 239 genes encoding the human DNA damage response machinery. Results Overcoming the limitations of current models, the reporter assay enables to quantity cccDNA levels using a robust ELISA as a readout. A loss-of-function screen identified 27 candidate cccDNA host factors, including Y box binding protein 1 (YBX1), a DNA binding protein regulating transcription and translation. Validation studies in authentic infection models revealed a robust decrease in HBV cccDNA levels following silencing, providing proof-of-concept for the importance of YBX1 in the early steps of the HBV life cycle. In patients, YBX1 expression robustly correlates with both HBV load and liver disease progression. Conclusion Our cell-based reporter assay enables the discovery of HBV cccDNA host factors including YBX1 and is suitable for the characterisation of cccDNA-related host factors, antiviral targets and compounds.

AB - Objectives Chronic hepatitis B virus (HBV) infection is a leading cause of liver disease and hepatocellular carcinoma. A key feature of HBV replication is the synthesis of the covalently close circular (ccc)DNA, not targeted by current treatments and whose elimination would be crucial for viral cure. To date, little is known about cccDNA formation. One major challenge to address this urgent question is the absence of robust models for the study of cccDNA biology. Design We established a cell-based HBV cccDNA reporter assay and performed a loss-of-function screen targeting 239 genes encoding the human DNA damage response machinery. Results Overcoming the limitations of current models, the reporter assay enables to quantity cccDNA levels using a robust ELISA as a readout. A loss-of-function screen identified 27 candidate cccDNA host factors, including Y box binding protein 1 (YBX1), a DNA binding protein regulating transcription and translation. Validation studies in authentic infection models revealed a robust decrease in HBV cccDNA levels following silencing, providing proof-of-concept for the importance of YBX1 in the early steps of the HBV life cycle. In patients, YBX1 expression robustly correlates with both HBV load and liver disease progression. Conclusion Our cell-based reporter assay enables the discovery of HBV cccDNA host factors including YBX1 and is suitable for the characterisation of cccDNA-related host factors, antiviral targets and compounds.

KW - antiviral therapy

KW - hepatitis B

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SN - 0017-5749

VL - 72

SP - 1745

EP - 1757

JO - Gut

JF - Gut

IS - 9

ER -

Cell-based cccDNA reporter assay combined with functional genomics identifies YBX1 as HBV cccDNA host factor and antiviral candidate target

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