Chd5 Requires PHD-Mediated Histone 3 Binding for Tumor Suppression

Shilpi Paul; Alex Kuo; Thomas Schalch; Hannes Vogel; Leemor Joshua-Tor; W. Richard McCombie; Or Gozani; Molly Hammell; Alea A. Mills

doi:10.1016/j.celrep.2012.12.009

Chd5 Requires PHD-Mediated Histone 3 Binding for Tumor Suppression

Shilpi Paul, Alex Kuo, Thomas Schalch, Hannes Vogel, Leemor Joshua-Tor, W. Richard McCombie, Or Gozani, Molly Hammell, Alea A. Mills

Department of Biochemistry and Molecular Biology

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

41 Scopus citations

Abstract

Chromodomain Helicase DNA binding protein 5 (. CHD5) is a tumor suppressor mapping to 1p36, a genomic region that is frequently deleted in human cancer. Although CHD5 belongs to the CHD family of chromatin-remodeling proteins, whether its tumor-suppressive role involves an interaction with chromatin is unknown. Here we report that Chd5 binds the unmodified N terminus of H3 through its tandem plant homeodomains (PHDs). Genome-wide chromatin immunoprecipitation studies reveal preferential binding of Chd5 to loci lacking the active mark H3K4me3 and also identify Chd5 targets implicated in cancer. Chd5 mutations that abrogate H3 binding are unable to inhibit proliferation or transcriptionally modulate target genes, which leads to tumorigenesis in vivo. Unlike wild-type Chd5, Chd5-PHD mutants are unable to induce differentiation or efficiently suppress the growth of human neuroblastoma in vivo. Our work defines Chd5 as an N-terminally unmodified H3-binding protein and provides functional evidence that this interaction orchestrates chromatin-mediated transcriptional programs critical for tumor suppression.

Original language	English (US)
Pages (from-to)	92-102
Number of pages	11
Journal	Cell Reports
Volume	3
Issue number	1
DOIs	https://doi.org/10.1016/j.celrep.2012.12.009
State	Published - Jan 31 2013

All Science Journal Classification (ASJC) codes

Biochemistry, Genetics and Molecular Biology(all)

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.celrep.2012.12.009

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title = "Chd5 Requires PHD-Mediated Histone 3 Binding for Tumor Suppression",

abstract = "Chromodomain Helicase DNA binding protein 5 (. CHD5) is a tumor suppressor mapping to 1p36, a genomic region that is frequently deleted in human cancer. Although CHD5 belongs to the CHD family of chromatin-remodeling proteins, whether its tumor-suppressive role involves an interaction with chromatin is unknown. Here we report that Chd5 binds the unmodified N terminus of H3 through its tandem plant homeodomains (PHDs). Genome-wide chromatin immunoprecipitation studies reveal preferential binding of Chd5 to loci lacking the active mark H3K4me3 and also identify Chd5 targets implicated in cancer. Chd5 mutations that abrogate H3 binding are unable to inhibit proliferation or transcriptionally modulate target genes, which leads to tumorigenesis in vivo. Unlike wild-type Chd5, Chd5-PHD mutants are unable to induce differentiation or efficiently suppress the growth of human neuroblastoma in vivo. Our work defines Chd5 as an N-terminally unmodified H3-binding protein and provides functional evidence that this interaction orchestrates chromatin-mediated transcriptional programs critical for tumor suppression.",

author = "Shilpi Paul and Alex Kuo and Thomas Schalch and Hannes Vogel and Leemor Joshua-Tor and McCombie, {W. Richard} and Or Gozani and Molly Hammell and Mills, {Alea A.}",

note = "Funding Information: We thank members of the Mills laboratory for advice and assistance, W. Li for generating the Chd5 shRNA (shChd5-WZ), S. Lowe for providing plasmids and rtTA mice, S. Hearn for help with microscopy, E. Wang and C. Vakoc for advice regarding ChIP-qPCR, and L. Bianco and her staff for help with tumor studies. This work was supported by The SASS Foundation for Medical Research (S.P.), NIH RO1 CA127383 (A.A.M.), NIH RO1 GM079641 (O.G.), and an Ellison Senior Scholar in Aging Award (O.G.). ",

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doi = "10.1016/j.celrep.2012.12.009",

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AU - Kuo, Alex

AU - Schalch, Thomas

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AU - Joshua-Tor, Leemor

AU - McCombie, W. Richard

AU - Gozani, Or

AU - Hammell, Molly

AU - Mills, Alea A.

N1 - Funding Information: We thank members of the Mills laboratory for advice and assistance, W. Li for generating the Chd5 shRNA (shChd5-WZ), S. Lowe for providing plasmids and rtTA mice, S. Hearn for help with microscopy, E. Wang and C. Vakoc for advice regarding ChIP-qPCR, and L. Bianco and her staff for help with tumor studies. This work was supported by The SASS Foundation for Medical Research (S.P.), NIH RO1 CA127383 (A.A.M.), NIH RO1 GM079641 (O.G.), and an Ellison Senior Scholar in Aging Award (O.G.).

PY - 2013/1/31

Y1 - 2013/1/31

N2 - Chromodomain Helicase DNA binding protein 5 (. CHD5) is a tumor suppressor mapping to 1p36, a genomic region that is frequently deleted in human cancer. Although CHD5 belongs to the CHD family of chromatin-remodeling proteins, whether its tumor-suppressive role involves an interaction with chromatin is unknown. Here we report that Chd5 binds the unmodified N terminus of H3 through its tandem plant homeodomains (PHDs). Genome-wide chromatin immunoprecipitation studies reveal preferential binding of Chd5 to loci lacking the active mark H3K4me3 and also identify Chd5 targets implicated in cancer. Chd5 mutations that abrogate H3 binding are unable to inhibit proliferation or transcriptionally modulate target genes, which leads to tumorigenesis in vivo. Unlike wild-type Chd5, Chd5-PHD mutants are unable to induce differentiation or efficiently suppress the growth of human neuroblastoma in vivo. Our work defines Chd5 as an N-terminally unmodified H3-binding protein and provides functional evidence that this interaction orchestrates chromatin-mediated transcriptional programs critical for tumor suppression.

AB - Chromodomain Helicase DNA binding protein 5 (. CHD5) is a tumor suppressor mapping to 1p36, a genomic region that is frequently deleted in human cancer. Although CHD5 belongs to the CHD family of chromatin-remodeling proteins, whether its tumor-suppressive role involves an interaction with chromatin is unknown. Here we report that Chd5 binds the unmodified N terminus of H3 through its tandem plant homeodomains (PHDs). Genome-wide chromatin immunoprecipitation studies reveal preferential binding of Chd5 to loci lacking the active mark H3K4me3 and also identify Chd5 targets implicated in cancer. Chd5 mutations that abrogate H3 binding are unable to inhibit proliferation or transcriptionally modulate target genes, which leads to tumorigenesis in vivo. Unlike wild-type Chd5, Chd5-PHD mutants are unable to induce differentiation or efficiently suppress the growth of human neuroblastoma in vivo. Our work defines Chd5 as an N-terminally unmodified H3-binding protein and provides functional evidence that this interaction orchestrates chromatin-mediated transcriptional programs critical for tumor suppression.

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Chd5 Requires PHD-Mediated Histone 3 Binding for Tumor Suppression

Abstract

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