Sonja Stadler scite author profile

Summary The incorporation of histone H3 variants has been implicated in the epigenetic memory of cellular state. Using genome editing with zinc finger nucleases to tag endogenous H3.3, we report genome-wide profiles of H3 variants in mammalian embryonic stem (ES) cells and neuronal precursor cells. Genome-wide patterns of H3.3 are dependent on amino acid sequence, and change with cellular differentiation at developmentally regulated loci. The H3.3 chaperone Hira is required for H3.3 enrichment at active and repressed genes. Strikingly, Hira is not essential for localization of H3.3 at telomeres and many transcription factor binding sites. Immunoaffinity purification and mass spectrometry reveal that the proteins Atrx and Daxx associate with H3.3 in a Hira-independent manner. Atrx is required for Hira-independent localization of H3.3 at telomeres, and for the repression of telomeric RNA. Our data demonstrate that multiple and distinct factors are responsible for H3.3 localization at specific genomic locations in mammalian cells.

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Histone hypercitrullination mediates chromatin decondensation and neutrophil extracellular trap formation

Wang

Stadler

et al. 2009

1,240

1,003

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Peripheral blood neutrophils form highly decondensed chromatin structures, termed neutrophil extracellular traps (NETs), that have been implicated in innate immune response to bacterial infection. Neutrophils express high levels of peptidylarginine deiminase 4 (PAD4), which catalyzes histone citrullination. However, whether PAD4 or histone citrullination plays a role in chromatin structure in neutrophils is unclear. In this study, we show that the hypercitrullination of histones by PAD4 mediates chromatin decondensation. Histone hypercitrullination is detected on highly decondensed chromatin in HL-60 granulocytes and blood neutrophils. The inhibition of PAD4 decreases histone hypercitrullination and the formation of NET-like structures, whereas PAD4 treatment of HL-60 cells facilitates these processes. The loss of heterochromatin and multilobular nuclear structures is detected in HL-60 granulocytes after PAD4 activation. Importantly, citrullination of biochemically defined avian nucleosome arrays inhibits their compaction by the linker histone H5 to form higher order chromatin structures. Together, these results suggest that histone hypercitrullination has important functions in chromatin decondensation in granulocytes/neutrophils.

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Daxx is an H3.3-specific histone chaperone and cooperates with ATRX in replication-independent chromatin assembly at telomeres

Lewis

Elsaesser

Noh

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

718

652

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The histone variant H3.3 is implicated in the formation and maintenance of specialized chromatin structure in metazoan cells. H3.3-containing nucleosomes are assembled in a replication-independent manner by means of dedicated chaperone proteins. We previously identified the death domain associated protein (Daxx) and the α-thalassemia X-linked mental retardation protein (ATRX) as H3.3-associated proteins. Here, we report that the highly conserved N terminus of Daxx interacts directly with variant-specific residues in the H3.3 core. Recombinant Daxx assembles H3.3/H4 tetramers on DNA templates, and the ATRX-Daxx complex catalyzes the deposition and remodeling of H3.3-containing nucleosomes. We find that the ATRX-Daxx complex is bound to telomeric chromatin, and that both components of this complex are required for H3.3 deposition at telomeres in murine embryonic stem cells (ESCs). These data demonstrate that Daxx functions as an H3.3-specific chaperone and facilitates the deposition of H3.3 at heterochromatin loci in the context of the ATRX-Daxx complex.he assembly of chromosomal DNA into nucleosomes represents the most fundamental step in the formation of eukaryotic chromatin structure. The deposition, remodeling, and eviction of nucleosomes have been shown to be important for a variety of DNA-templated processes such as replication, repair, and transcription. Histone deposition pathways are thought to play a critical role in the establishment and maintenance of epigenetic information encoded by histone modifications, nucleosome positioning, and higher-order chromatin structure (1-3). An additional layer of epigenetic regulation is achieved by the use of histone variants: paralogs of the core histones genes H3, H4, H2A, and H2B that have diverged from their canonical counterparts in primary structure and function.In addition to a centromeric version, mammalian genomes encode three H3 variants. Histones H3.1 and H3.2 are primarily expressed in S-phase, whereas the H3.3 variant is expressed throughout the cell cycle. For its universal role in proliferating and nondividing cells, the function of H3.3 has been studied in a wide range of cell types and organisms (4). Differences in H3.3 and the canonical H3 species are confined to one residue in the histone tail and a cluster of three residues in the core histone fold. The three amino acid variations in the histone fold have been shown to be necessary for H3.3 replication-independent incorporation into chromatin (5, 6). Higher eukaryotes utilize separate chaperones and deposition pathways for the different histone H3 variants, and previous work identified two major pathways: replication-coupled deposition of H3.1/H3.2 by the CAF1 complex, and replication-independent deposition of H3.3 by the HIRA complex (6-8)While originally associated with euchromatic sites of active transcription, H3.3 has recently been found associated with regulatory elements and constitutive heterochromatin at telomeres (9-12). We previously found that HIRA is required for localization of H3.3 t...

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Histone hypercitrullination mediates chromatin decondensation and neutrophil extracellular trap formation

Wang¹,

Li²,

Stadler³

et al. 2009

J Exp Med

246

347

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Sonja Stadler

Distinct Factors Control Histone Variant H3.3 Localization at Specific Genomic Regions

Histone hypercitrullination mediates chromatin decondensation and neutrophil extracellular trap formation

Daxx is an H3.3-specific histone chaperone and cooperates with ATRX in replication-independent chromatin assembly at telomeres

Histone hypercitrullination mediates chromatin decondensation and neutrophil extracellular trap formation

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