High affinity binding of H3K14ac through collaboration of bromodomains 2, 4 and 5 is critical for the molecular and tumor suppressor functions of PBRM1
Polybromo‐1 (PBRM1) is an important tumor suppressor in kidney cancer. It contains six tandem bromodomains (BDs), which are specialized structures that recognize acetyl‐lysine residues. While BD2 has been found to bind acetylated histone H3 lysine 14 (H3K14ac), it is not known whether other BDs coll...
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| Published in | Molecular oncology Vol. 13; no. 4; pp. 811 - 828 |
|---|---|
| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
John Wiley & Sons, Inc
01.04.2019
John Wiley and Sons Inc Wiley |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1574-7891 1878-0261 1878-0261 |
| DOI | 10.1002/1878-0261.12434 |
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| Abstract | Polybromo‐1 (PBRM1) is an important tumor suppressor in kidney cancer. It contains six tandem bromodomains (BDs), which are specialized structures that recognize acetyl‐lysine residues. While BD2 has been found to bind acetylated histone H3 lysine 14 (H3K14ac), it is not known whether other BDs collaborate with BD2 to generate strong binding to H3K14ac, and the importance of H3K14ac recognition for the molecular and tumor suppressor function of PBRM1 is also unknown. We discovered that full‐length PBRM1, but not its individual BDs, strongly binds H3K14ac. BDs 2, 4, and 5 were found to collaborate to facilitate strong binding to H3K14ac. Quantitative measurement of the interactions between purified BD proteins and H3K14ac or nonacetylated peptides confirmed the tight and specific association of the former. Interestingly, while the structural integrity of BD4 was found to be required for H3K14ac recognition, the conserved acetyl‐lysine binding site of BD4 was not. Furthermore, simultaneous point mutations in BDs 2, 4, and 5 prevented recognition of H3K14ac, altered promoter binding and gene expression, and caused PBRM1 to relocalize to the cytoplasm. In contrast, tumor‐derived point mutations in BD2 alone lowered PBRM1's affinity to H3K14ac and also disrupted promoter binding and gene expression without altering cellular localization. Finally, overexpression of PBRM1 variants containing point mutations in BDs 2, 4, and 5 or BD2 alone failed to suppress tumor growth in a xenograft model. Taken together, our study demonstrates that BDs 2, 4, and 5 of PBRM1 collaborate to generate high affinity to H3K14ac and tether PBRM1 to chromatin. Mutations in BD2 alone weaken these interactions, and this is sufficient to abolish its molecular and tumor suppressor functions.
Bromodomains (BDs) 2, 4, and 5 of polybromo‐1 (PBRM1) were found to collaborate to facilitate strong binding to H3K14ac. Quantitative measurement confirmed this. Simultaneous point mutations in these bromodomains prevented recognition of H3K14ac, altered promoter binding and gene expression, and relocalized PBRM1 to the cytoplasm. In contrast, tumor‐derived point mutations in BD2 alone disrupted the molecular and tumor suppressor functions of PBRM1. |
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| AbstractList | Polybromo‐1 (
PBRM
1) is an important tumor suppressor in kidney cancer. It contains six tandem bromodomains (
BD
s), which are specialized structures that recognize acetyl‐lysine residues. While
BD
2 has been found to bind acetylated histone H3 lysine 14 (H3K14ac), it is not known whether other
BD
s collaborate with
BD
2 to generate strong binding to H3K14ac, and the importance of H3K14ac recognition for the molecular and tumor suppressor function of
PBRM
1 is also unknown. We discovered that full‐length
PBRM
1, but not its individual
BD
s, strongly binds H3K14ac.
BD
s 2, 4, and 5 were found to collaborate to facilitate strong binding to H3K14ac. Quantitative measurement of the interactions between purified
BD
proteins and H3K14ac or nonacetylated peptides confirmed the tight and specific association of the former. Interestingly, while the structural integrity of
BD
4 was found to be required for H3K14ac recognition, the conserved acetyl‐lysine binding site of
BD
4 was not. Furthermore, simultaneous point mutations in
BD
s 2, 4, and 5 prevented recognition of H3K14ac, altered promoter binding and gene expression, and caused
PBRM
1 to relocalize to the cytoplasm. In contrast, tumor‐derived point mutations in
BD
2 alone lowered
PBRM
1's affinity to H3K14ac and also disrupted promoter binding and gene expression without altering cellular localization. Finally, overexpression of
PBRM
1 variants containing point mutations in
BD
s 2, 4, and 5 or
BD
2 alone failed to suppress tumor growth in a xenograft model. Taken together, our study demonstrates that
BD
s 2, 4, and 5 of
PBRM
1 collaborate to generate high affinity to H3K14ac and tether
PBRM
1 to chromatin. Mutations in
BD
2 alone weaken these interactions, and this is sufficient to abolish its molecular and tumor suppressor functions. Polybromo‐1 (PBRM1) is an important tumor suppressor in kidney cancer. It contains six tandem bromodomains (BDs), which are specialized structures that recognize acetyl‐lysine residues. While BD2 has been found to bind acetylated histone H3 lysine 14 (H3K14ac), it is not known whether other BDs collaborate with BD2 to generate strong binding to H3K14ac, and the importance of H3K14ac recognition for the molecular and tumor suppressor function of PBRM1 is also unknown. We discovered that full‐length PBRM1, but not its individual BDs, strongly binds H3K14ac. BDs 2, 4, and 5 were found to collaborate to facilitate strong binding to H3K14ac. Quantitative measurement of the interactions between purified BD proteins and H3K14ac or nonacetylated peptides confirmed the tight and specific association of the former. Interestingly, while the structural integrity of BD4 was found to be required for H3K14ac recognition, the conserved acetyl‐lysine binding site of BD4 was not. Furthermore, simultaneous point mutations in BDs 2, 4, and 5 prevented recognition of H3K14ac, altered promoter binding and gene expression, and caused PBRM1 to relocalize to the cytoplasm. In contrast, tumor‐derived point mutations in BD2 alone lowered PBRM1's affinity to H3K14ac and also disrupted promoter binding and gene expression without altering cellular localization. Finally, overexpression of PBRM1 variants containing point mutations in BDs 2, 4, and 5 or BD2 alone failed to suppress tumor growth in a xenograft model. Taken together, our study demonstrates that BDs 2, 4, and 5 of PBRM1 collaborate to generate high affinity to H3K14ac and tether PBRM1 to chromatin. Mutations in BD2 alone weaken these interactions, and this is sufficient to abolish its molecular and tumor suppressor functions. Bromodomains (BDs) 2, 4, and 5 of polybromo‐1 (PBRM1) were found to collaborate to facilitate strong binding to H3K14ac. Quantitative measurement confirmed this. Simultaneous point mutations in these bromodomains prevented recognition of H3K14ac, altered promoter binding and gene expression, and relocalized PBRM1 to the cytoplasm. In contrast, tumor‐derived point mutations in BD2 alone disrupted the molecular and tumor suppressor functions of PBRM1. Polybromo-1 (PBRM1) is an important tumor suppressor in kidney cancer. It contains six tandem bromodomains (BDs), which are specialized structures that recognize acetyl-lysine residues. While BD2 has been found to bind acetylated histone H3 lysine 14 (H3K14ac), it is not known whether other BDs collaborate with BD2 to generate strong binding to H3K14ac, and the importance of H3K14ac recognition for the molecular and tumor suppressor function of PBRM1 is also unknown. We discovered that full-length PBRM1, but not its individual BDs, strongly binds H3K14ac. BDs 2, 4, and 5 were found to collaborate to facilitate strong binding to H3K14ac. Quantitative measurement of the interactions between purified BD proteins and H3K14ac or nonacetylated peptides confirmed the tight and specific association of the former. Interestingly, while the structural integrity of BD4 was found to be required for H3K14ac recognition, the conserved acetyl-lysine binding site of BD4 was not. Furthermore, simultaneous point mutations in BDs 2, 4, and 5 prevented recognition of H3K14ac, altered promoter binding and gene expression, and caused PBRM1 to relocalize to the cytoplasm. In contrast, tumor-derived point mutations in BD2 alone lowered PBRM1's affinity to H3K14ac and also disrupted promoter binding and gene expression without altering cellular localization. Finally, overexpression of PBRM1 variants containing point mutations in BDs 2, 4, and 5 or BD2 alone failed to suppress tumor growth in a xenograft model. Taken together, our study demonstrates that BDs 2, 4, and 5 of PBRM1 collaborate to generate high affinity to H3K14ac and tether PBRM1 to chromatin. Mutations in BD2 alone weaken these interactions, and this is sufficient to abolish its molecular and tumor suppressor functions. Polybromo-1 (PBRM1) is an important tumor suppressor in kidney cancer. It contains six tandem bromodomains (BDs), which are specialized structures that recognize acetyl-lysine residues. While BD2 has been found to bind acetylated histone H3 lysine 14 (H3K14ac), it is not known whether other BDs collaborate with BD2 to generate strong binding to H3K14ac, and the importance of H3K14ac recognition for the molecular and tumor suppressor function of PBRM1 is also unknown. We discovered that full-length PBRM1, but not its individual BDs, strongly binds H3K14ac. BDs 2, 4, and 5 were found to collaborate to facilitate strong binding to H3K14ac. Quantitative measurement of the interactions between purified BD proteins and H3K14ac or nonacetylated peptides confirmed the tight and specific association of the former. Interestingly, while the structural integrity of BD4 was found to be required for H3K14ac recognition, the conserved acetyl-lysine binding site of BD4 was not. Furthermore, simultaneous point mutations in BDs 2, 4, and 5 prevented recognition of H3K14ac, altered promoter binding and gene expression, and caused PBRM1 to relocalize to the cytoplasm. In contrast, tumor-derived point mutations in BD2 alone lowered PBRM1's affinity to H3K14ac and also disrupted promoter binding and gene expression without altering cellular localization. Finally, overexpression of PBRM1 variants containing point mutations in BDs 2, 4, and 5 or BD2 alone failed to suppress tumor growth in a xenograft model. Taken together, our study demonstrates that BDs 2, 4, and 5 of PBRM1 collaborate to generate high affinity to H3K14ac and tether PBRM1 to chromatin. Mutations in BD2 alone weaken these interactions, and this is sufficient to abolish its molecular and tumor suppressor functions.Polybromo-1 (PBRM1) is an important tumor suppressor in kidney cancer. It contains six tandem bromodomains (BDs), which are specialized structures that recognize acetyl-lysine residues. While BD2 has been found to bind acetylated histone H3 lysine 14 (H3K14ac), it is not known whether other BDs collaborate with BD2 to generate strong binding to H3K14ac, and the importance of H3K14ac recognition for the molecular and tumor suppressor function of PBRM1 is also unknown. We discovered that full-length PBRM1, but not its individual BDs, strongly binds H3K14ac. BDs 2, 4, and 5 were found to collaborate to facilitate strong binding to H3K14ac. Quantitative measurement of the interactions between purified BD proteins and H3K14ac or nonacetylated peptides confirmed the tight and specific association of the former. Interestingly, while the structural integrity of BD4 was found to be required for H3K14ac recognition, the conserved acetyl-lysine binding site of BD4 was not. Furthermore, simultaneous point mutations in BDs 2, 4, and 5 prevented recognition of H3K14ac, altered promoter binding and gene expression, and caused PBRM1 to relocalize to the cytoplasm. In contrast, tumor-derived point mutations in BD2 alone lowered PBRM1's affinity to H3K14ac and also disrupted promoter binding and gene expression without altering cellular localization. Finally, overexpression of PBRM1 variants containing point mutations in BDs 2, 4, and 5 or BD2 alone failed to suppress tumor growth in a xenograft model. Taken together, our study demonstrates that BDs 2, 4, and 5 of PBRM1 collaborate to generate high affinity to H3K14ac and tether PBRM1 to chromatin. Mutations in BD2 alone weaken these interactions, and this is sufficient to abolish its molecular and tumor suppressor functions. |
| Audience | Academic |
| Author | Langbein, Lauren Niu, Xiaohua Cho, Eun‐Ah Yang, Haifeng Cai, Weijia Zhang, Meiling Liao, Lili Yan, Qin Greer, Celeste B. Alicea‐Velázquez, Nilda L. Cosgrove, Michael S. |
| AuthorAffiliation | 6 Fox Chase Cancer Center Philadelphia PA USA 4 Department of Chemistry and Biochemistry Central Connecticut State University New Britain CT USA 3 Department of Biochemistry and Molecular Biology State University of New York Upstate Medical University Syracuse NY USA 5 Department of Gastrointestinal Surgery The Sixth Affiliated Hospital of Guangzhou Medical University China 1 Department of Pathology, Anatomy and Cell Biology Thomas Jefferson University Philadelphia PA USA 2 Department of Pathology Yale University New Haven CT USA 7 Department of Pharmacology Vanderbilt University Nashville TN USA |
| AuthorAffiliation_xml | – name: 7 Department of Pharmacology Vanderbilt University Nashville TN USA – name: 5 Department of Gastrointestinal Surgery The Sixth Affiliated Hospital of Guangzhou Medical University China – name: 1 Department of Pathology, Anatomy and Cell Biology Thomas Jefferson University Philadelphia PA USA – name: 2 Department of Pathology Yale University New Haven CT USA – name: 4 Department of Chemistry and Biochemistry Central Connecticut State University New Britain CT USA – name: 6 Fox Chase Cancer Center Philadelphia PA USA – name: 3 Department of Biochemistry and Molecular Biology State University of New York Upstate Medical University Syracuse NY USA |
| Author_xml | – sequence: 1 givenname: Lili surname: Liao fullname: Liao, Lili organization: Yale University – sequence: 2 givenname: Nilda L. surname: Alicea‐Velázquez fullname: Alicea‐Velázquez, Nilda L. organization: Central Connecticut State University – sequence: 3 givenname: Lauren surname: Langbein fullname: Langbein, Lauren organization: Thomas Jefferson University – sequence: 4 givenname: Xiaohua surname: Niu fullname: Niu, Xiaohua organization: The Sixth Affiliated Hospital of Guangzhou Medical University – sequence: 5 givenname: Weijia surname: Cai fullname: Cai, Weijia organization: Thomas Jefferson University – sequence: 6 givenname: Eun‐Ah surname: Cho fullname: Cho, Eun‐Ah organization: Fox Chase Cancer Center – sequence: 7 givenname: Meiling surname: Zhang fullname: Zhang, Meiling organization: Yale University – sequence: 8 givenname: Celeste B. surname: Greer fullname: Greer, Celeste B. organization: Vanderbilt University – sequence: 9 givenname: Qin surname: Yan fullname: Yan, Qin organization: Yale University – sequence: 10 givenname: Michael S. surname: Cosgrove fullname: Cosgrove, Michael S. email: cosgrovm@upstate.edu organization: State University of New York Upstate Medical University – sequence: 11 givenname: Haifeng surname: Yang fullname: Yang, Haifeng email: haifeng.yang@jefferson.edu organization: Thomas Jefferson University |
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| Copyright | 2018 The Authors. Published by FEBS Press and John Wiley & Sons Ltd. COPYRIGHT 2019 John Wiley & Sons, Inc. |
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| Keywords | kidney cancer bromodomain PBRM1 H3K14ac synergy |
| Language | English |
| License | Attribution 2018 The Authors. Published by FEBS Press and John Wiley & Sons Ltd. This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Michael S. Cosgrove and Haifeng Yang contributed equally to this work. |
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| References | 2017; 7 2012; 366 2010; 468 2013; 45 2015; 52 2010; 463 2017; 292 2014; 25 2014; 46 2015; 208 2017; 376 2013; 8 2012; 12 2017; 114 2004; 10 2007; 355 2010; 20 2000; 19 2018; 293 2011; 469 2018; 359 2009; 91 2013; 339 1999; 15 2013; 499 2017 2011; 21 1999; 399 2005; 70 2017; 18 2008; 40 2012; 44 2011; 144 |
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| Snippet | Polybromo‐1 (PBRM1) is an important tumor suppressor in kidney cancer. It contains six tandem bromodomains (BDs), which are specialized structures that... Polybromo-1 (PBRM1) is an important tumor suppressor in kidney cancer. It contains six tandem bromodomains (BDs), which are specialized structures that... Polybromo‐1 ( PBRM 1) is an important tumor suppressor in kidney cancer. It contains six tandem bromodomains ( BD s), which are specialized structures that... |
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| SubjectTerms | Acetylation Amino Acid Sequence Animals bromodomain Cell Line Chromatin Ethylenediaminetetraacetic acid Gene expression Gene Expression Regulation, Neoplastic Gene mutations H3K14ac Histones - metabolism kidney cancer Lysine Lysine - metabolism Mice, Nude Nuclear Proteins - chemistry Nuclear Proteins - genetics Nuclear Proteins - metabolism PBRM1 Point Mutation - genetics Promoter Regions, Genetic - genetics Protein Binding Protein Domains Structure-Activity Relationship synergy Transcription Factors - chemistry Transcription Factors - genetics Transcription Factors - metabolism Tumor Suppressor Proteins - chemistry Tumor Suppressor Proteins - genetics Tumor Suppressor Proteins - metabolism Tumors |
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| Title | High affinity binding of H3K14ac through collaboration of bromodomains 2, 4 and 5 is critical for the molecular and tumor suppressor functions of PBRM1 |
| URI | https://onlinelibrary.wiley.com/doi/abs/10.1002%2F1878-0261.12434 https://www.ncbi.nlm.nih.gov/pubmed/30585695 https://www.proquest.com/docview/2160731328 https://pubmed.ncbi.nlm.nih.gov/PMC6441893 https://doaj.org/article/c57fd6c15dc2484c9410ea2022415536 |
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