Sage Journals: Discover world-class research

Abstract

Hepatitis B Virus (HBV) covalently closed circular DNA (cccDNA) is the main replicative intermediate of HBV and is organized into minichromosomes by the interaction with histone and nonhistone proteins. The remodeling of HBV minichromosomes such as post-translational modifications of histone proteins plays an important role in regulating HBV replication. To determine whether other remodeling occurs in addition to acetylation of cccDNA-bound H3 histones in the presence of HBV replication, a cell culture replication model of HBV was used to assess the dynamic status of acetylation, phosphorylation, and methylation of cccDNA-bound H3 histones at various times after transient transfection of linear HBV DNA into human hepatoma, HepG2 cells. H3 histones bound to cccDNA were found to be phosphorylated, mono-methylated, and acetylated in HepG2 cells containing replicating HBV. The acetylation and methylation status of H3 histones bound to cccDNA paralleled HBV replication. Our results demonstrate that phosphorylation and methylation occur in the remodeling of HBV minichromosomes during HBV replication. The modifications of cccDNA-bound H3 histones were associated with the level of HBV replication. These findings suggest that alterations in the extent of minichromosome remodeling might be a potential target to inhibit HBV replication in the development of effective novel antiviral agents.

Get full access to this article

View all access options for this article.

References

Berger

S.L.

2007. The complex language of chromatin regulation during transcription. Nature, 447:407–412.

Bock

C.T.

, Schranz

, Schroder

C.H.

, Zentgraf

1994. Hepatitis B virus genome is organized into nucleosomes in the nucleus of the infected cell. Virus Genes, 8:215–229.

Bock

C.T.

, Schwinn

, Locarnini

, Fyfe

, Manns

M.P.

, Trautwein

, Zentgraf

2001. Structural organization of the hepatitis B virus minichromosome. J Mol Biol, 307:183–196.

Cheung

, Allis

C.D.

, Sassone-Corsi

2000. Signaling to chromatin through histone modifications. Cell, 103:263–271.

Costanzo

, Merlo

, Pediconi

, Fulco

, Sartorelli

, Cole

P.A.

, Fontemaggi

, Fanciulli

, Schiltz

, Blandino

, Balsano

, Levrero

2002. DNA damage-dependent acetylation of p73 dictates the selective activation of apoptotic target genes. Mol Cell, 9:175–186.

Ganem

, Alfred

2004. Hepatitis B virus infection-natural history and clinical consequences. N Engl J Med, 350:1118–1129.

Gunther

, Li

B.C.

, Miska

, Kruger

D.H.

, Meisel

, Will

1995. A novel method for efficient amplification of whole hepatitis B virus genomes permits rapid functional analysis and reveals deletion mutants in immunosuppressed patients. J Virol, 69:5437–5444.

Jackson

J.P.

, Lindroth

A.M.

, Cao

, Jacobsen

S.E.

2002. Control of CpNpG DNA methylation by the KRYPTONITE histone H3 methyltransferase. Nature, 416:556–560.

Jenuwein

, Allis

C.D.

2001. Translating the histone code. Science, 293:1074–1080.

10.

Keasler

V.V.

, Hodgson

A.J.

, Madden

C.R.

, Slagle

B.L.

2007. Enhancement of hepatitis B virus replication by the regulatory X protein in vitro and in vivo. J Virol, 81:2656–2662.

11.

Klose

R.J.

, Zhang

2007. Regulation of histone methylation by d emethylimination and demethylation. Nat Rev Mol Cell Biol, 8:307–318.

12.

Kouzarides

2007. Chromatin modifications and their function. Cell, 128:693–705.

13.

Kuo

M.H.

, Allis

C.D.

1999. In vivo cross-linking and immunoprecipitation for studying dynamic protein: DNA associations in a chromatin environment. Method, 19:425–433.

14.

Lee

W.M.

1997. Hepatitis B virus infection. N Engl J Med, 337:1733–1745.

15.

Levrero

, Pollicino

, Petersen

, Belloni

, Raimondo

, Dandri

2009. Control of cccDNA function in hepatitis B virus infection. J Hepatol, 51:581–592.

16.

Liang

G.N.

, Lin

J.C.

, Wei

, Yoo

, Cheng

J.C.

, Nguyen

C.T.

, Weisenberger

D.J.

, Egger

, Takai

, Gonzales

F.A.

, Jones

P.A.

2004. Distinct localization of histone H3 acetylation and H3-K4 methylation to the transcription start sites in the human genome. Proc Natl Acad Sci U S A, 101:7357–7362.

17.

Masona

W.S.

, Cullen

, Moraleda

, Saputelli

, Aldrich

C.E.

, Miller

D.S.

, Tennant

, Frick

, Averett

, Condreay

L.D.

, Jilbert

A.R.

1998. Lamivudine Therapy of WHV-infected woodchucks. Virology, 245:18–32.

18.

Newbold

J.E.

, Xin

, Tencza

, Sherman

, Dean

, Bowden

, Locarnini

1995. The covalently closed duplex form of the hepadnavirus genome exists in situ as a heterogeneous population of viral minichromosomes. J Virol, 69:3350–3357.

19.

Nowak

S.J.

, Corces

V.G.

2004. Phosphorylation of histone H3: a balancing act between chromosome condensation and transcriptional activation. Trends Genet, 20:214–220.

20.

Orlando

2000. Mapping chromosomal proteins in vivo by formaldehyde-crosslinked-chromatin immunoprecipitation. Trends Biochem Sci, 25:99–104.

21.

Peterson

C.L.

, Laniel

2004. Histones and histone modifications. Curr Biol, 14:546–551.

22.

Pollicino

, Belloni

, Raffa

, Pediconi

, Squadrito

, Raimondo

, Levrero

2006. Hepatitis B virus replication is regulated by the acetylation status of hepatitis B virus cccDNA-bound H3 and H4 histones. Gastroenterol, 130:823–837.

23.

Pollicino

, Squadrito

, Cerenzia

, Cacciola

, Raffa

, Craxi

, Farinati

, Missale

, Smedile

, Tiribelli

, Villa

, Raimondo

2004. Hepatitis B virus maintains its pro-oncogenic properties in the case of occult HBV infection. Gastroenterol, 126:102–110.

24.

Rea

, Eisenhaber

, O'Carroll

, Strahl

B.D.

, Sun

Z.W.

, Schmid

, Opravil

, Mechtler

, Ponting

C.P.

, Allis

C.D.

, Jenuwein

2000. Regulation of chromatin structure by site-specific histone H3 methyltransferases. Nature, 406:593–599.

25.

Salvador

L.M.

, Park

, Cottom

, Maizels

E.T.

, Jones

J.C.

, Schillace

R.V.

, Carr

D.W.

, Cheung

, Allis

C.D.

, Jameson

J.L.

, Hunzicker-Dunn

2001. Follicle-stimulating hormone stimulates protein kinase A-mediated hisone H3 phosphorylation and acetylation leading to select gene activation in ovarian granulosa cell. J Biol Chem, 276:40146–40155.

26.

Sambrook

, Russel

D.W.

2001. Molecular Cloning: A Laboratory Manual, 3rd. Cold Spring Harbor Lab Press: New York, 138–140151–153.

27.

Schubeler

, MacAlpine

D.M.

, Scalzo

, Wirbelauer

, Kooperberg

, van Leeuwen

, Gottschling

D.E.

, O'Neill

L.P.

, Turner

B.M.

, Delrow

, Bell

S.P.

, Groudine

2004. The histone modification pattern of active genes revealed through genome-wide chromatin analysis of a higher eukaryote. Genes Dev, 18:1263–1271.

28.

Seeger

, Mason

W.S.

2000. Hepatitis B virus biology. Microbiol Mol Biol Rev, 64:5–68.

29.

Shi

Y.W.

, Hetstine

J.R.

2007. Dynamic regulation of histone lysine methylation by demethylases. Mol Cell, 25:1–14.

30.

Spencer

V.A.

, Sun

J.M.

, Li

, Davie

J.R.

2003. Chromatin immunoprecipitation: a tool for studyinghistone acetylation and transcription factor binding. Methods, 31:67–75.

31.

Stoll-Becker

, Repp

, Glebe

, Schaefer

, Kreuder

, Kann

, Lampert

, Gerlich

W.H.

1997. Transcription of hepatitis B virus in peripheral blood mononuclear cells from persistently infected patients. J Virol, 71:5399–5407.

32.

Strahl

B.D.

, Allis

C.D.

2000. The language of covalent histone modificaitons. Nature, 403:41–45.

33.

Swigut

, Wysockal

2007. H3K27 demethylases, at long last. Cell, 131:29–32.

34.

Turner

B.M.

2002. Cellular memory and the histone code. Cell, 111:285–291.

35.

Tuttleman

J.S.

, Pourcel

, Summers

1986. Formation of the pool of covalently closed circular viral DNA in hepadnavirus-infected cells. Cell, 47:451–460.

36.

Wang

G.G.

, Allis

C.D.

, Chi

2007. Chromatin remodeling and cancer, part I: covalent histone modification. Trends Mol Med, 13:363–372.

37.

Wang

, Huang

Z.Q.

, Xia

, Feng

, Erdjument-Bromage

, Strahl

B.D.

, Briggs

S.D.

, Allis

C.D.

, Wong

, Tempst

, Zhang

2001. Methylation of histone H4 at arginine 3 facilitating transcriptional activation by nuclear hormone receptor. Science, 293:853–857.

38.

Werle-Lapostolle

, Bowden

, Locarnini

, Wursthorn

, Petersen

, Lau

, Trepo

, Marcellin

, Goodman

, Delaney

W.E.

, Xiong

, Brosgart

C.L.

, Chen

S.S.

, Gibbs

C.S.

, Zoulim

2004. Persistence of cccDNA during the natural history of chronic hepatitis B and decline during adefovir dipivoxil therapy. Gastroenterol, 126:1750–1758.

39.

Wieland

S.F.

, Spangenberg

H.C.

, Thimme

, Purcell

R.H.

, Chisari

F.V.

2004. Expansion and contraction of the hepatitis B virus transcriptional template in infected chimpanzees. Proc Natl Acad Sci U S A, 101:2129–2134.

Supplementary Material

Please find the following supplemental material available below.

For Open Access articles published under a Creative Commons License, all supplemental material carries the same license as the article it is associated with.

For non-Open Access articles published, all supplemental material carries a non-exclusive license, and permission requests for re-use of supplemental material or any part of supplemental material shall be sent directly to the copyright owner as specified in the copyright notice associated with the article.

0.00 MB

0.03 MB

Chromosome Remodeling Related to Hepatitis B Virus Replication in HepG2 Cells

Abstract

Get full access to this article

References

Supplementary Material