The MLL3/4 complexes and MiDAC co-regulate H4K20ac to control a specific gene expression program

The mitotic deacetylase complex MiDAC has recently been shown to play a vital physiological role in embryonic development and neurite outgrowth. However, how MiDAC functionally intersects with other chromatin-modifying regulators is poorly understood. Here, we describe a physical interaction between...

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Autores principales: Wang, Xiaokang, Rosikiewicz, Wojciech, Sedkov, Yurii, Mondal, Baisakhi, Martinez, Tanner, Kallappagoudar, Satish, Tvardovskiy, Andrey, Bajpai, Richa, Xu, Beisi, Pruett-Miller, Shondra M, Schneider, Robert, Herz, Hans-Martin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Life Science Alliance LLC 2022
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9275676/
https://www.ncbi.nlm.nih.gov/pubmed/35820704
http://dx.doi.org/10.26508/lsa.202201572
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author Wang, Xiaokang
Rosikiewicz, Wojciech
Sedkov, Yurii
Mondal, Baisakhi
Martinez, Tanner
Kallappagoudar, Satish
Tvardovskiy, Andrey
Bajpai, Richa
Xu, Beisi
Pruett-Miller, Shondra M
Schneider, Robert
Herz, Hans-Martin
author_facet Wang, Xiaokang
Rosikiewicz, Wojciech
Sedkov, Yurii
Mondal, Baisakhi
Martinez, Tanner
Kallappagoudar, Satish
Tvardovskiy, Andrey
Bajpai, Richa
Xu, Beisi
Pruett-Miller, Shondra M
Schneider, Robert
Herz, Hans-Martin
author_sort Wang, Xiaokang
collection PubMed
description The mitotic deacetylase complex MiDAC has recently been shown to play a vital physiological role in embryonic development and neurite outgrowth. However, how MiDAC functionally intersects with other chromatin-modifying regulators is poorly understood. Here, we describe a physical interaction between the histone H3K27 demethylase UTX, a complex-specific subunit of the enhancer-associated MLL3/4 complexes, and MiDAC. We demonstrate that UTX bridges the association of the MLL3/4 complexes and MiDAC by interacting with ELMSAN1, a scaffolding subunit of MiDAC. Our data suggest that MiDAC constitutes a negative genome-wide regulator of H4K20ac, an activity which is counteracted by the MLL3/4 complexes. MiDAC and the MLL3/4 complexes co-localize at many genomic regions, which are enriched for H4K20ac and the enhancer marks H3K4me1, H3K4me2, and H3K27ac. We find that MiDAC antagonizes the recruitment of UTX and MLL4 and negatively regulates H4K20ac, and to a lesser extent H3K4me2 and H3K27ac, resulting in transcriptional attenuation of associated genes. In summary, our findings provide a paradigm how the opposing roles of chromatin-modifying components, such as MiDAC and the MLL3/4 complexes, balance the transcriptional output of specific gene expression programs.
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spelling pubmed-92756762022-07-25 The MLL3/4 complexes and MiDAC co-regulate H4K20ac to control a specific gene expression program Wang, Xiaokang Rosikiewicz, Wojciech Sedkov, Yurii Mondal, Baisakhi Martinez, Tanner Kallappagoudar, Satish Tvardovskiy, Andrey Bajpai, Richa Xu, Beisi Pruett-Miller, Shondra M Schneider, Robert Herz, Hans-Martin Life Sci Alliance Research Articles The mitotic deacetylase complex MiDAC has recently been shown to play a vital physiological role in embryonic development and neurite outgrowth. However, how MiDAC functionally intersects with other chromatin-modifying regulators is poorly understood. Here, we describe a physical interaction between the histone H3K27 demethylase UTX, a complex-specific subunit of the enhancer-associated MLL3/4 complexes, and MiDAC. We demonstrate that UTX bridges the association of the MLL3/4 complexes and MiDAC by interacting with ELMSAN1, a scaffolding subunit of MiDAC. Our data suggest that MiDAC constitutes a negative genome-wide regulator of H4K20ac, an activity which is counteracted by the MLL3/4 complexes. MiDAC and the MLL3/4 complexes co-localize at many genomic regions, which are enriched for H4K20ac and the enhancer marks H3K4me1, H3K4me2, and H3K27ac. We find that MiDAC antagonizes the recruitment of UTX and MLL4 and negatively regulates H4K20ac, and to a lesser extent H3K4me2 and H3K27ac, resulting in transcriptional attenuation of associated genes. In summary, our findings provide a paradigm how the opposing roles of chromatin-modifying components, such as MiDAC and the MLL3/4 complexes, balance the transcriptional output of specific gene expression programs. Life Science Alliance LLC 2022-07-12 /pmc/articles/PMC9275676/ /pubmed/35820704 http://dx.doi.org/10.26508/lsa.202201572 Text en © 2022 Wang et al. https://creativecommons.org/licenses/by/4.0/This article is available under a Creative Commons License (Attribution 4.0 International, as described at https://creativecommons.org/licenses/by/4.0/).
spellingShingle Research Articles
Wang, Xiaokang
Rosikiewicz, Wojciech
Sedkov, Yurii
Mondal, Baisakhi
Martinez, Tanner
Kallappagoudar, Satish
Tvardovskiy, Andrey
Bajpai, Richa
Xu, Beisi
Pruett-Miller, Shondra M
Schneider, Robert
Herz, Hans-Martin
The MLL3/4 complexes and MiDAC co-regulate H4K20ac to control a specific gene expression program
title The MLL3/4 complexes and MiDAC co-regulate H4K20ac to control a specific gene expression program
title_full The MLL3/4 complexes and MiDAC co-regulate H4K20ac to control a specific gene expression program
title_fullStr The MLL3/4 complexes and MiDAC co-regulate H4K20ac to control a specific gene expression program
title_full_unstemmed The MLL3/4 complexes and MiDAC co-regulate H4K20ac to control a specific gene expression program
title_short The MLL3/4 complexes and MiDAC co-regulate H4K20ac to control a specific gene expression program
title_sort mll3/4 complexes and midac co-regulate h4k20ac to control a specific gene expression program
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9275676/
https://www.ncbi.nlm.nih.gov/pubmed/35820704
http://dx.doi.org/10.26508/lsa.202201572
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