Alison L. Clayton scite author profile

Understanding the function of histone modifications across inducible genes in mammalian cells requires quantitative, comparative analysis of their fate during gene activation and identification of enzymes responsible. We produced high-resolution comparative maps of the distribution and dynamics of H3K4me3, H3K36me3, H3K79me2 and H3K9ac across c-fos and c-jun upon gene induction in murine fibroblasts. In unstimulated cells, continuous turnover of H3K9 acetylation occurs on all K4-trimethylated histone H3 tails; distribution of both modifications coincides across promoter and 5′ part of the coding region. In contrast, K36- and K79-methylated H3 tails, which are not dynamically acetylated, are restricted to the coding regions of these genes. Upon stimulation, transcription-dependent increases in H3K4 and H3K36 trimethylation are seen across coding regions, peaking at 5′ and 3′ ends, respectively. Addressing molecular mechanisms involved, we find that Huntingtin-interacting protein HYPB/Setd2 is responsible for virtually all global and transcription-dependent H3K36 trimethylation, but not H3K36-mono- or dimethylation, in these cells. These studies reveal four distinct layers of histone modification across inducible mammalian genes and show that HYPB/Setd2 is responsible for H3K36 trimethylation throughout the mouse nucleus.

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The nucleosomal response associated with immediate-early gene induction is mediated via alternative MAP kinase cascades: MSK1 as a potential histone H3/HMG-14 kinase

Thomson

et al. 1999

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The nucleosomal response refers to the rapid phosphorylation of histone H3 on serine 10 and HMG-14 on serine 6 that occurs concomitantly with immediateearly (IE) gene induction in response to a wide variety of stimuli. Using antibodies against the phosphorylated residues, we show that H3 and HMG-14 phosphorylation is mediated via different MAP kinase (MAPK) cascades, depending on the stimulus. The nucleosomal response elicited by TPA is ERK-dependent, whereas that elicited by anisomycin is p38 MAPK-dependent. In intact cells, the nucleosomal response can be selectively inhibited using the protein kinase inhibitor H89. MAPK activation and phosphorylation of transcription factors are largely unaffected by H89, whereas induction of IE genes is inhibited and its characteristics markedly altered. MSK1 is considered the most likely kinase to mediate this response because (i) it is activated by both ERK and p38 MAPKs; (ii) it is an extremely efficient kinase for HMG-14 and H3, utilizing the physiologically relevant sites; and (iii) its activity towards H3/HMG-14 is uniquely sensitive to H89 inhibition. Thus, the nucleosomal response is an invariable consequence of ERK and p38 but not JNK/SAPK activation, and MSK1 potentially provides a link to complete the circuit between cell surface and nucleosome.

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Core histone hyperacetylation co-maps with generalized DNase I sensitivity in the chicken beta-globin chromosomal domain.

et al. 1994

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The distribution of core histone acetylation across the chicken beta‐globin locus has been mapped in 15 day chicken embryo erythrocytes by immunoprecipitation of mononucleosomes with an antibody recognizing acetylated histones, followed by hybridization probing at several points in the locus. A continuum of acetylation was observed, covering both genes and intergenic regions. Using the same probes, the generalized sensitivity to DNase I was mapped by monitoring the disappearance of intact genomic restriction fragments from Southern transfers. Close correspondence between the 33 kb of sensitive chromatin and the extent of acetylation indicates that one role of the modification could be the generation and/or maintenance of the open conformation. The precision of acetylation mapping makes it a possible approach to the definition of chromosomal domain boundaries.

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Phosphoacetylation of histone H3 on c-fos- and c-jun-associated nucleosomes upon gene activation

et al. 2000

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The induction of immediate‐early (IE) genes, including proto‐oncogenes c‐fos and c‐jun, correlates well with a nucleosomal response, the phosphorylation of histone H3 and HMG‐14 mediated via extracellular signal regulated kinase or p38 MAP kinase cascades. Phosphorylation is targeted to a minute fraction of histone H3, which is also especially susceptible to hyperacetylation. Here, we provide direct evidence that phosphorylation and acetylation of histone H3 occur on the same histone H3 tail on nucleosomes associated with active IE gene chromatin. Chromatin immunoprecipitation (ChIP) assays were performed using antibodies that specifically recognize the doubly‐modified phosphoacetylated form of histone H3. Analysis of the associated DNA shows that histone H3 on c‐fos‐ and c‐jun‐associated nucleosomes becomes doubly‐modified, the same H3 tails becoming both phosphorylated and acetylated, only upon gene activation. This study reveals potential complications of occlusion when using site‐specific antibodies against modified histones, and shows also that phosphorylated H3 is more sensitive to trichostatin A (TSA)‐induced hyperacetylation than non‐phosphorylated H3. Because MAP kinase‐mediated gene induction is implicated in controlling diverse biological processes, histone H3 phosphoacetylation is likely to be of widespread significance.

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Enhanced Histone Acetylation and Transcription: A Dynamic Perspective

2006

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Stably enhanced histone acetylation has long been regarded as a condition of transcriptionally active genes. Recent papers suggest a more dynamic model, with rapid turnover of acetylation observed at nontranscribing "poised" genes and shown to be an important determinant of transcriptional efficiency upon gene induction. Are these "special cases," restricted to specific genes and specific types of histone modifications, or could the entire panoply of histone modifications associated with transcription now be revisited with a much more dynamic perspective?

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Molecular Basis for the Recognition of Phosphorylated and Phosphoacetylated Histone H3 by 14-3-3

et al. 2005

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Phosphorylation of histone H3 is implicated in transcriptional activation and chromosome condensation, but its immediate molecular function has remained obscure. By affinity chromatography of nuclear extracts against modified H3 tail peptides, we identified 14-3-3 isoforms as proteins that bind these tails in a strictly phosphorylation-dependent manner. Acetylation of lysines 9 and 14 does not impede 14-3-3 binding to serine 10-phosphorylated H3 tails. In vivo, 14-3-3 is inducibly recruited to c-fos and c-jun nucleosomes upon gene activation, concomitant with H3 phosphoacetylation. We have determined the structures of 14-3-3zeta complexed with serine 10-phosphorylated or phosphoacetylated H3 peptides. These reveal a distinct mode of 14-3-3/phosphopeptide binding and provide a structural understanding for the lack of effect of acetylation at lysines 9 and 14 on this interaction. 14-3-3 isoforms thus represent a class of proteins that mediate the effect of histone phosphorylation at inducible genes.

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Independent Dynamic Regulation of Histone Phosphorylation and Acetylation during Immediate-Early Gene Induction

2001

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Induction of c-fos and c-jun is associated with phosphoacetylation of histone H3 and acetylation of histone H4. Upon induction, a large population of nucleosomes becomes highly acetylated on histones H3 and H4, whereas a much smaller population of comparable nucleosomes at similar positions along the gene becomes phosphoacetylated. Inhibiting histone H3 phosphorylation with kinase inhibitors does not measurably alter the enhanced acetylation of these nucleosomes. Finally, whereas H3 phosphorylation is a MAP kinase-mediated inducible event, we found acetylation to be continuously turning over by the targeted action of HATs and HDACs in the absence of any stimulation or gene transcription. These studies suggest that phosphorylation and acetylation are independently and dynamically regulated at these genes and reveal the complexity of multiple histone modifications at immediate-early gene chromatin.

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MAP kinase‐mediated phosphoacetylation of histone H3 and inducible gene regulation

2003

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That signalling pathways, particularly the mitogenactivated protein kinase cascades, elicit modi¢cation of chromatin proteins such as histone H3 by phosphorylation and/or acetylation concomitant with gene activation is now well established. The picture that is emerging is one of a complex and dynamic pattern of multiple modi¢cations at the H3 tail. Here, we review the inducible gene systems where H3 modi¢cations have been reported and re-evaluate the controversy as to the kinase(s) that phosphorylates it as well as the proposed coupling between H3 phosphorylation and acetylation.

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Alison L. Clayton

Dynamic histone H3 methylation during gene induction: HYPB/Setd2 mediates all H3K36 trimethylation

The nucleosomal response associated with immediate-early gene induction is mediated via alternative MAP kinase cascades: MSK1 as a potential histone H3/HMG-14 kinase

Core histone hyperacetylation co-maps with generalized DNase I sensitivity in the chicken beta-globin chromosomal domain.

Phosphoacetylation of histone H3 on c-fos- and c-jun-associated nucleosomes upon gene activation

Enhanced Histone Acetylation and Transcription: A Dynamic Perspective

Molecular Basis for the Recognition of Phosphorylated and Phosphoacetylated Histone H3 by 14-3-3

Independent Dynamic Regulation of Histone Phosphorylation and Acetylation during Immediate-Early Gene Induction

MAP kinase‐mediated phosphoacetylation of histone H3 and inducible gene regulation

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