The Bromodomain Containing 8 (BRD8) transcriptional network in human lung epithelial cells
Mechanisms regulating gene expression in the airway epithelium underlie its response to the environment. A network of transcription factors (TFs) and architectural proteins, modulate chromatin accessibility and recruit activating or repressive signals. Bromodomain-containing proteins function as TFs...
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| Published in | Molecular and cellular endocrinology Vol. 524; p. 111169 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Ireland
Elsevier B.V
15.03.2021
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0303-7207 1872-8057 1872-8057 |
| DOI | 10.1016/j.mce.2021.111169 |
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| Abstract | Mechanisms regulating gene expression in the airway epithelium underlie its response to the environment. A network of transcription factors (TFs) and architectural proteins, modulate chromatin accessibility and recruit activating or repressive signals. Bromodomain-containing proteins function as TFs or by engaging methyltransferase or acetyltransferase activity to induce chromatin modifications. Here we investigate the role of Bromodomain Containing 8 (BRD8) in coordinating lung epithelial function. Sites of BRD8 occupancy genome-wide were mapped in human lung epithelial cell lines (Calu-3 and 16HBE14o-). CCCTC-Binding Factor (CTCF) was identified as a predicted co-factor of BRD8, based upon motif over-representation under BRD8 ChIP-seq peaks. Following siRNA-mediated depletion of BRD8, differentially expressed genes with nearby peaks of BRD8 occupancy were subject to gene ontology process enrichment analysis. BRD8 targets are enriched for genes involved in the innate immune response and the cell cycle. Depletion of BRD8 increased the secretion of the antimicrobial peptide beta-defensin 1 and multiple chemokines, and reduced cell proliferation. |
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| AbstractList | Mechanisms regulating gene expression in the airway epithelium underlie its response to the environment. A network of transcription factors (TFs) and architectural proteins, modulate chromatin accessibility and recruit activating or repressive signals. Bromodomain-containing proteins function as TFs or by engaging methyltransferase or acetyltransferase activity to induce chromatin modifications. Here we investigate the role of Bromodomain Containing 8 (BRD8) in coordinating lung epithelial function. Sites of BRD8 occupancy genome-wide were mapped in human lung epithelial cell lines (Calu-3 and 16HBE14o⁻). CCCTC-Binding Factor (CTCF) was identified as a predicted co-factor of BRD8, based upon motif over-representation under BRD8 ChIP-seq peaks. Following siRNA-mediated depletion of BRD8, differentially expressed genes with nearby peaks of BRD8 occupancy were subject to gene ontology process enrichment analysis. BRD8 targets are enriched for genes involved in the innate immune response and the cell cycle. Depletion of BRD8 increased the secretion of the antimicrobial peptide beta-defensin 1 and multiple chemokines, and reduced cell proliferation. Mechanisms regulating gene expression in the airway epithelium underlie its response to the environment. A network of transcription factors (TFs) and architectural proteins, modulate chromatin accessibility and recruit activating or repressive signals. Bromodomain-containing proteins function as TFs or by engaging methyltransferase or acetyltransferase activity to induce chromatin modifications. Here we investigate the role of Bromodomain Containing 8 (BRD8) in coordinating lung epithelial function. Sites of BRD8 occupancy genome-wide were mapped in human lung epithelial cell lines (Calu-3 and 16HBE14o-). CCCTC-Binding Factor (CTCF) was identified as a predicted co-factor of BRD8, based upon motif over-representation under BRD8 ChIP-seq peaks. Following siRNA-mediated depletion of BRD8, differentially expressed genes with nearby peaks of BRD8 occupancy were subject to gene ontology process enrichment analysis. BRD8 targets are enriched for genes involved in the innate immune response and the cell cycle. Depletion of BRD8 increased the secretion of the antimicrobial peptide beta-defensin 1 and multiple chemokines, and reduced cell proliferation. Mechanisms regulating gene expression in the airway epithelium underlie its response to the environment. A network of transcription factors (TFs) and architectural proteins, modulate chromatin accessibility and recruit activating or repressive signals. Bromodomain-containing proteins function as TFs or by engaging methyltransferase or acetyltransferase activity to induce chromatin modifications. Here we investigate the role of Bromodomain Containing 8 (BRD8) in coordinating lung epithelial function. Sites of BRD8 occupancy genome-wide were mapped in human lung epithelial cell lines (Calu-3 and 16HBE14o-). CCCTC-Binding Factor (CTCF) was identified as a predicted co-factor of BRD8, based upon motif over-representation under BRD8 ChIP-seq peaks. Following siRNA-mediated depletion of BRD8, differentially expressed genes with nearby peaks of BRD8 occupancy were subject to gene ontology process enrichment analysis. BRD8 targets are enriched for genes involved in the innate immune response and the cell cycle. Depletion of BRD8 increased the secretion of the antimicrobial peptide beta-defensin 1 and multiple chemokines, and reduced cell proliferation.Mechanisms regulating gene expression in the airway epithelium underlie its response to the environment. A network of transcription factors (TFs) and architectural proteins, modulate chromatin accessibility and recruit activating or repressive signals. Bromodomain-containing proteins function as TFs or by engaging methyltransferase or acetyltransferase activity to induce chromatin modifications. Here we investigate the role of Bromodomain Containing 8 (BRD8) in coordinating lung epithelial function. Sites of BRD8 occupancy genome-wide were mapped in human lung epithelial cell lines (Calu-3 and 16HBE14o-). CCCTC-Binding Factor (CTCF) was identified as a predicted co-factor of BRD8, based upon motif over-representation under BRD8 ChIP-seq peaks. Following siRNA-mediated depletion of BRD8, differentially expressed genes with nearby peaks of BRD8 occupancy were subject to gene ontology process enrichment analysis. BRD8 targets are enriched for genes involved in the innate immune response and the cell cycle. Depletion of BRD8 increased the secretion of the antimicrobial peptide beta-defensin 1 and multiple chemokines, and reduced cell proliferation. Mechanisms regulating gene expression in the airway epithelium underlie its response to the environment. A network of transcription factors (TFs) and architectural proteins, modulate chromatin accessibility and recruit activating or repressive signals. Bromodomain-containing proteins function as TFs or by engaging methyltransferase or acetyltransferase activity to induce chromatin modifications. Here we investigate the role of Bromodomain Containing 8 (BRD8) in coordinating lung epithelial function. Sites of BRD8 occupancy genome-wide were mapped in human lung epithelial cell lines (Calu-3 and 16HBE14o ). CCCTC-Binding Factor (CTCF) was identified as a predicted co-factor of BRD8, based upon motif over-representation under BRD8 ChIP-seq peaks. Following siRNA-mediated depletion of BRD8, differentially expressed genes with nearby peaks of BRD8 occupancy were subject to gene ontology process enrichment analysis. BRD8 targets are enriched for genes involved in the innate immune response and the cell cycle. Depletion of BRD8 increased the secretion of the antimicrobial peptide beta-defensin 1 and multiple chemokines, and reduced cell proliferation. |
| ArticleNumber | 111169 |
| Author | Leir, Shih-Hsing Browne, James A. NandyMazumdar, Monali Paranjapye, Alekh Harris, Ann |
| AuthorAffiliation | 2 Case Comprehensive Cancer Center, Case Western Reserve University School of Medicine, Cleveland, OH, USA 1 Department of Genetics and Genome Sciences, Cleveland, OH, USA |
| AuthorAffiliation_xml | – name: 1 Department of Genetics and Genome Sciences, Cleveland, OH, USA – name: 2 Case Comprehensive Cancer Center, Case Western Reserve University School of Medicine, Cleveland, OH, USA |
| Author_xml | – sequence: 1 givenname: James A. surname: Browne fullname: Browne, James A. organization: Department of Genetics and Genome Sciences, Cleveland, OH, USA – sequence: 2 givenname: Monali surname: NandyMazumdar fullname: NandyMazumdar, Monali organization: Department of Genetics and Genome Sciences, Cleveland, OH, USA – sequence: 3 givenname: Alekh orcidid: 0000-0002-4069-1761 surname: Paranjapye fullname: Paranjapye, Alekh organization: Department of Genetics and Genome Sciences, Cleveland, OH, USA – sequence: 4 givenname: Shih-Hsing orcidid: 0000-0001-9524-3379 surname: Leir fullname: Leir, Shih-Hsing organization: Department of Genetics and Genome Sciences, Cleveland, OH, USA – sequence: 5 givenname: Ann surname: Harris fullname: Harris, Ann email: ann.harris@case.edu organization: Department of Genetics and Genome Sciences, Cleveland, OH, USA |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/33476703$$D View this record in MEDLINE/PubMed |
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| Keywords | ChIP-seq BRD8 Transcriptional network RNA-Seq Differential gene expression |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 These authors contributed equally. Author Contributions J.B., M.N., A.P., and A.H. designed the study; J.B., M.N., A.P., S-H.L. and A.H. acquired, analyzed and interpreted data. J.B. and A.H. drafted the article. All authors revised and approved the article. Current address: Department of Pediatrics, Yale University School of Medicine, New Haven, Connecticut, USA. |
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| SubjectTerms | acetyltransferases antimicrobial peptides Base Sequence Binding Sites BRD8 CCCTC-Binding Factor - metabolism cell cycle Cell Line cell proliferation Cell Proliferation - genetics chemokines Chemokines - metabolism ChIP-seq chromatin chromatin immunoprecipitation Differential gene expression endocrinology epithelial cells Epithelial Cells - metabolism epithelium gene expression gene expression regulation gene ontology Gene Regulatory Networks Genome, Human Humans innate immunity Lung - cytology lungs methyltransferases Protein Binding Repressor Proteins - metabolism RNA, Small Interfering - metabolism RNA-Seq secretion Trans-Activators - metabolism transcription (genetics) Transcription Factors - genetics Transcription Factors - metabolism Transcriptional network Transcriptome - genetics |
| Title | The Bromodomain Containing 8 (BRD8) transcriptional network in human lung epithelial cells |
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