Structural Characterization of the Histone Variant macroH2A

Chakravarthy, Srinivas; Gundimella, Sampath Kumar Y.; Caron, Cécile; Perche, Pierre-Yves; Pehrson, John R.; Khochbin, Saadi; Luger, Karolin

doi:10.1128/mcb.25.17.7616-7624.2005

Cited by 163 publications

(201 citation statements)

References 32 publications

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“…However, it is interesting to hypothesize that the large macrodomain-containing nonhistone region of macroH2A1 plays a role in this process. This domain represents a platform that can (1) recruit chromatin-dependent transcriptional regulators (e.g., HP1b, HDAC1, and PARP-1) (Chakravarthy et al 2005;Changolkar and Pehrson 2006;Ouararhni et al 2006;Nusinow et al 2007), (2) provide a novel platform for covalent modifications (e.g., S137 phosphorylation) (Bernstein et al 2008), and (3) bind small molecule ligands (e.g., the NAD + metabolites poly[ADP-ribose], ADP-ribose, and O-acetyl-ADP-ribose, in the case of macroH2A1.1) (Kustatscher et al 2005;Timinszky et al 2009). All of these features may locally regulate the function of macroH2A1-containing nucleosomes and thereby affect the expression of a subset of the genes to which it is bound.…”

Section: Discussionmentioning

confidence: 99%

“…Nevertheless, the structure of homotypic and heterotypic macroH2A-containing nucleosomes is largely similar to nonvariant histone nucleosomes (Chakravarthy et al 2005). While more salt-stable, macroH2A1-containing nucleosomes organize the same amount of DNA (147 base pairs [bp]) as their canonical counterparts (Abbott et al 2004).…”

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confidence: 99%

“…The macrodomain of macroH2A provides a unique platform for the recruitment of protein factors to chromatin, and a handful of such factors have been identified (e.g., PARP-1, HDAC1) (Chakravarthy et al 2005;HernandezMunoz et al 2005;Ouararhni et al 2006;Nusinow et al 2007). Several macrodomains, including the macrodomain of one of the splice variants of macroH2A1 (macroH2A1.1), have been shown to bind NAD + metabolites, including poly(ADP-ribose), ADP-ribose and O-acetyl-ADP-ribose, with high affinity (Kustatscher et al 2005;Ahel et al 2009;Gottschalk et al 2009;Kraus 2009;Timinszky et al 2009).…”

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confidence: 99%

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The histone variant macroH2A1 marks repressed autosomal chromatin, but protects a subset of its target genes from silencing

Gamble¹,

Frizzell²,

Yang³

et al. 2009

Genes Dev.

165

226

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MacroH2A1 is a histone variant that is enriched on the inactive X chromosome (Xi) in mammals and is postulated to play an important, but unknown, role in the repression of gene expression. Here we show that, although macroH2A1 marks repressed autosomal chromatin, it positively regulates transcription when located in the transcribed regions of a subset of its target genes. We used chromatin immunoprecipitation (ChIP) coupled with tiling microarrays (ChIP–chip) to determine the genomic localization of macroH2A1 in IMR90 human primary lung fibroblasts and MCF-7 breast cancer cells. The patterns of macroH2A1 deposition are largely similar across the autosomes of both cell lines. Our studies revealed a genomic localization pattern unique among histone variants; namely, the occupation by macroH2A1 of large chromatin domains (>500 kb in some cases) that contain repressive chromatin marks (e.g., histone H3 Lys 27 trimethylation). The boundaries of macroH2A1-containing domains tend to occur in promoter-proximal regions. Not all promoters, however, serve as macroH2A1 boundaries; many macroH2A1-containing chromatin domains invade the transcribed regions of genes whose products play key roles in development and cell–cell signaling. Surprisingly, the expression of a subset of these genes is positively regulated by macroH2A1. MacroH2A1 also plays a role in augmenting signal-regulated transcription, specifically for genes responsive to serum starvation. Collectively, our results document an unexpected role for macroH2A1 in the escape from heterochromatin-associated silencing and the enhancement of autosomal gene transcription.

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Section: Discussionmentioning

confidence: 99%

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confidence: 99%

mentioning

confidence: 99%

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The histone variant macroH2A1 marks repressed autosomal chromatin, but protects a subset of its target genes from silencing

Gamble¹,

Frizzell²,

Yang³

et al. 2009

Genes Dev.

165

226

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“…The macro domain on the C terminus is connected through an unstructured linker to a histone fold domain that is ;60% identical to canonical H2A, resulting in a histone protein that is approximately three times the size of H2A (Chakravarthy et al 2005). Macro domain-containing proteins are found in many organisms; however, macroH2A is restricted to vertebrates and a few invertebrates (Talbert and Henikoff 2010).…”

Section: H2az Deposition and A Futile Cyclementioning

confidence: 99%

Histone variants: dynamic punctuation in transcription

2014

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Eukaryotic gene regulation involves a balance between packaging of the genome into nucleosomes and enabling access to regulatory proteins and RNA polymerase. Nucleosomes are integral components of gene regulation that restrict access to both regulatory sequences and the underlying template. Whereas canonical histones package the newly replicated genome, they can be replaced with histone variants that alter nucleosome structure, stability, dynamics, and, ultimately, DNA accessibility. Here we consider how histone variants and their interacting partners are involved in transcriptional regulation through the creation of unique chromatin states.

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“…mH2A is abundant in heterochromatin, including senescence-associated heterochromatic foci (SAHF) and the inactivated X chromosome (Xi) (Costanzi and Pehrson 1998;Zhang et al 2005). In vitro studies suggest that the macro domain sterically hinders access of transcription factors to DNA, while mH2A's L1 loop produces inflexible nucleosomes (Angelov et al 2003;Chakravarthy et al 2005).Our group has recently demonstrated a role for mH2A isoforms in suppressing melanoma progression, and others have linked mH2A expression or its splice patterns to breast and lung cancer (Sporn et al 2009;Kapoor et al 2010;Novikov et al 2011). However, the factors that regulate the association of mH2A with chromatin remain obscure.…”

mentioning

confidence: 99%

ATRX-mediated chromatin association of histone variant macroH2A1 regulates α-globin expression

Ratnakumar¹,

Duarte²,

LeRoy³

et al. 2012

Genes Dev.

122

118

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The histone variant macroH2A generally associates with transcriptionally inert chromatin; however, the factors that regulate its chromatin incorporation remain elusive. Here, we identify the SWI/SNF helicase ATRX (a-thalassemia/ MR, X-linked) as a novel macroH2A-interacting protein.Unlike its role in assisting H3.3 chromatin deposition, ATRX acts as a negative regulator of macroH2A's chromatin association. In human erythroleukemic cells deficient for ATRX, macroH2A accumulates at the HBA gene cluster on the subtelomere of chromosome 16, coinciding with the loss of a-globin expression. Collectively, our results implicate deregulation of macroH2A's distribution as a contributing factor to the a-thalassemia phenotype of ATRX syndrome. The replacement of canonical histones with histone variants contributes to the dynamic nature of chromatin.Due to amino acid differences and, in turn, unique posttranslational modifications, histone variants can alter nucleosome structure, stability, and binding of effector proteins. Histone variants have unique genomic localization patterns, and thus specialized roles such as regulating gene expression or chromosome segregation during cell division . Therefore, the differential genomic incorporation of histone variants directly impacts critical cellular functions.The histone variant macroH2A (mH2A) is a vertebratespecific member of the H2A family and is unusual due to the presence of a C-terminal macro domain (Pehrson and Fried 1992). Two different genes encode mH2A1 and mH2A2 (H2AFY and H2AFY2, respectively), and two splice forms of mH2A1 exist: mH2A1.1 and mH2A1.2 (Costanzi and Pehrson 2001). mH2A is abundant in heterochromatin, including senescence-associated heterochromatic foci (SAHF) and the inactivated X chromosome (Xi) (Costanzi and Pehrson 1998;Zhang et al. 2005). In vitro studies suggest that the macro domain sterically hinders access of transcription factors to DNA, while mH2A's L1 loop produces inflexible nucleosomes (Angelov et al. 2003;Chakravarthy et al. 2005).Our group has recently demonstrated a role for mH2A isoforms in suppressing melanoma progression, and others have linked mH2A expression or its splice patterns to breast and lung cancer (Sporn et al. 2009;Kapoor et al. 2010;Novikov et al. 2011). However, the factors that regulate the association of mH2A with chromatin remain obscure. Therefore, identifying regulators of the incorporation of histone variants at distinct genomic loci is key to understanding how chromatin domains are established and maintained and how these may go awry in disease.A second group of factors contributing to chromatin dynamics are ATP-dependent chromatin remodeling complexes that rearrange or mobilize nucleosomes. Deregulation of members of the SWI/SNF family is implicated in various cancers and mental retardation (MR) syndromes, including ATRX (a-thalassemia/MR, X-linked), (Wilson and Roberts 2011). Mutations in ATRX, predominantly found in the H3K9me3-binding ADD (ATRX-DNMT3-DNMT3L) and/or helicase domains, are associated with ATRX sy...

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Structural Characterization of the Histone Variant macroH2A

Cited by 163 publications

References 32 publications

The histone variant macroH2A1 marks repressed autosomal chromatin, but protects a subset of its target genes from silencing

The histone variant macroH2A1 marks repressed autosomal chromatin, but protects a subset of its target genes from silencing

Histone variants: dynamic punctuation in transcription

ATRX-mediated chromatin association of histone variant macroH2A1 regulates α-globin expression

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