Genome-wide analysis of histone modifications in latently HIV-1 infected T cells

doi:10.1097/QAD.0000000000000309

. 2014 Jul 31;28(12):1719-28.

doi: 10.1097/QAD.0000000000000309.

Genome-wide analysis of histone modifications in latently HIV-1 infected T cells

Jihwan Park¹, Chae Hyun Lim, Seokjin Ham, Sung Soon Kim, Byeong-Sun Choi, Tae-Young Roh

Affiliations

Affiliation

¹ aDepartment of Life Sciences bDivision of Integrative Biosciences and Biotechnology, Pohang University of Science and Technology (POSTECH), Pohang cDivision of AIDS, Center for Immunology and Pathology, Korea National Institutes of Health, Cheongwon, Republic of Korea.

PMID: 24762674
PMCID: PMC4162335
DOI: 10.1097/QAD.0000000000000309

Free PMC article

Genome-wide analysis of histone modifications in latently HIV-1 infected T cells

Jihwan Park et al. AIDS. 2014.

Free PMC article

. 2014 Jul 31;28(12):1719-28.

doi: 10.1097/QAD.0000000000000309.

Authors

Jihwan Park¹, Chae Hyun Lim, Seokjin Ham, Sung Soon Kim, Byeong-Sun Choi, Tae-Young Roh

Affiliation

¹ aDepartment of Life Sciences bDivision of Integrative Biosciences and Biotechnology, Pohang University of Science and Technology (POSTECH), Pohang cDivision of AIDS, Center for Immunology and Pathology, Korea National Institutes of Health, Cheongwon, Republic of Korea.

PMID: 24762674
PMCID: PMC4162335
DOI: 10.1097/QAD.0000000000000309

Abstract

Objectives: The transcriptional silencing of HIV type 1 (HIV-1) provirus in latently infected cells is a major hurdle on the pathway to HIV-1 elimination. The epigenetic mechanisms established by histone modifications may affect the transcriptional silencing of HIV-1 and viral latency. A systematic epigenome profiling could be applicable to develop new epigenetic diagnostic markers for detecting HIV-1 latency.

Design: The HIV-1 latency cell lines (NCHA1, NCHA2 and ACH2] were compared with CD4⁺ T-cell line (A3.01).

Methods: The histone modification profiles obtained from chromatin immunoprecipiation followed by sequencing (ChIP-Seq) for histone H3K4me3 and H3K9ac were systematically examined and differential gene expression patterns along with levels of histone modifications were used for network analysis.

Results: The HIV-1 latency gave rise to downregulation of histone H3K4me3 and H3K9ac levels in 387 and 493 regions and upregulation in 451 and 962 sites, respectively. By network analysis, five gene clusters were associated with downregulated histone modifications and six gene clusters came up with upregulated histone modifications. Integration of gene expression with epigenetic information revealed that the cell cycle regulatory genes such as CDKN1A (p21) and cyclin D2 (CCND2) identified by differentially modified histones might play an important role in maintaining the HIV-1 latency.

Conclusion: The transcriptional regulation by epigenetic memory should play a key role in the evolution and maintenance of HIV-1 latency accompanied by modulation of signalling molecules in the host cells.

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Figures

**Fig. 1**
Genome-wide distribution of histone modifications and mRNA profiles in a control and HIV-1 latently infected cells.

**Fig. 2**
Identification of differentially enriched histone modification islands in HIV-1 latently infected cells.

**Fig. 3**
Differential enrichment of histone modifications and changes of gene expression associated with CD4 signalling pathway.

**Fig. 4**
Identification of functional clusters implicated in downregulated genes by HIV-1 latency.

**Fig. 5**
Identification of functional clusters implicated in upregulated genes by HIV-1 latency.

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References

1. Chun TW, Davey RT, Jr, Engel D, Lane HC, Fauci AS. Re-emergence of HIV after stopping therapy. Nature 1999; 401:874–875 - PubMed
1. Roh TY, Ngau WC, Cui K, Landsman D, Zhao K. High-resolution genome-wide mapping of histone modifications. Nat Biotechnol 2004; 22:1013–1016 - PubMed
1. Roh TY, Cuddapah S, Zhao K. Active chromatin domains are defined by acetylation islands revealed by genome-wide mapping. Genes Dev 2005; 19:542–552 - PMC - PubMed
1. Barski A, Cuddapah S, Cui KR, Roh TY, Schones DE, Wang ZB, et al. High-resolution profiling of histone methylations in the human genome. Cell 2007; 129:823–837 - PubMed
1. Schones DE, Cui K, Cuddapah S, Roh TY, Barski A, Wang Z, et al. Dynamic regulation of nucleosome positioning in the human genome. Cell 2008; 132:887–898 - PMC - PubMed

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[1] Chun TW, Davey RT, Jr, Engel D, Lane HC, Fauci AS. Re-emergence of HIV after stopping therapy. Nature 1999; 401:874–875 - PubMed

[2] Chun TW, Davey RT, Jr, Engel D, Lane HC, Fauci AS. Re-emergence of HIV after stopping therapy. Nature 1999; 401:874–875 - PubMed

[3] Roh TY, Ngau WC, Cui K, Landsman D, Zhao K. High-resolution genome-wide mapping of histone modifications. Nat Biotechnol 2004; 22:1013–1016 - PubMed

[4] Roh TY, Ngau WC, Cui K, Landsman D, Zhao K. High-resolution genome-wide mapping of histone modifications. Nat Biotechnol 2004; 22:1013–1016 - PubMed

[5] Roh TY, Cuddapah S, Zhao K. Active chromatin domains are defined by acetylation islands revealed by genome-wide mapping. Genes Dev 2005; 19:542–552 - PMC - PubMed

[6] Roh TY, Cuddapah S, Zhao K. Active chromatin domains are defined by acetylation islands revealed by genome-wide mapping. Genes Dev 2005; 19:542–552 - PMC - PubMed

[7] Barski A, Cuddapah S, Cui KR, Roh TY, Schones DE, Wang ZB, et al. High-resolution profiling of histone methylations in the human genome. Cell 2007; 129:823–837 - PubMed

[8] Barski A, Cuddapah S, Cui KR, Roh TY, Schones DE, Wang ZB, et al. High-resolution profiling of histone methylations in the human genome. Cell 2007; 129:823–837 - PubMed

[9] Schones DE, Cui K, Cuddapah S, Roh TY, Barski A, Wang Z, et al. Dynamic regulation of nucleosome positioning in the human genome. Cell 2008; 132:887–898 - PMC - PubMed

[10] Schones DE, Cui K, Cuddapah S, Roh TY, Barski A, Wang Z, et al. Dynamic regulation of nucleosome positioning in the human genome. Cell 2008; 132:887–898 - PMC - PubMed

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Genome-wide analysis of histone modifications in latently HIV-1 infected T cells

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Genome-wide analysis of histone modifications in latently HIV-1 infected T cells

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