Efrat Shema scite author profile

Histone modifications have emerged as important regulators of transcription. Histone H2B monoubiquitination has also been implicated in transcription; however, better understanding of the biological significance of this modification in mammalian cells has been hindered by the lack of suitable reagents, particularly antibodies capable of specifically recognizing ubiquitinated H2B (ubH2B). Here, we report the generation of anti-ubH2B monoclonal antibodies using a branched peptide as immunogen. These antibodies provide a powerful tool for exploring the biochemical functions of H2B monoubiquitination at both a genome-wide and gene-specific level. Application of these antibodies in high resolution chromatin immunoprecipitation (ChIP)-chip experiments in human cells, using tiling arrays, revealed preferential association of ubiquitinated H2B with the transcribed regions of highly expressed genes. Unlike dimethylated H3K4, ubH2B was not associated with distal promoter regions. Furthermore, experimental modulation of the transcriptional activity of the tumour suppressor p53 was accompanied by rapid changes in the H2B ubiquitination status of its p21 target gene, attesting to the dynamic nature of this process. It has recently been demonstrated that the apparent extent of gene expression often reflects elongation rather than initiation rates; thus, our findings suggest that H2B ubiquitination is intimately linked with global transcriptional elongation in mammalian cells.

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The histone H2B-specific ubiquitin ligase RNF20/hBRE1 acts as a putative tumor suppressor through selective regulation of gene expression

Shema¹,

Tirosh²,

Aylon³

et al. 2008

Genes Dev.

255

345

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Histone monoubiquitylation is implicated in critical regulatory processes. We explored the roles of histone H2B ubiquitylation in human cells by reducing the expression of hBRE1/RNF20, the major H2B-specific E3 ubiquitin ligase. While H2B ubiquitylation is broadly associated with transcribed genes, only a subset of genes was transcriptionally affected by RNF20 depletion and abrogation of H2B ubiquitylation. Gene expression dependent on RNF20 includes histones H2A and H2B and the p53 tumor suppressor. In contrast, RNF20 suppresses the expression of several proto-oncogenes, which reside preferentially in closed chromatin and are modestly transcribed despite bearing marks usually associated with high transcription rates. Remarkably, RNF20 depletion augmented the transcriptional effects of epidermal growth factor (EGF), increased cell migration, and elicited transformation and tumorigenesis. Furthermore, frequent RNF20 promoter hypermethylation was observed in tumors. RNF20 may thus be a putative tumor suppressor, acting through selective regulation of a distinct subset of genes.[Keywords: RNF20; BRE1; H2B ubiquitylation; tumor suppressor; transcription] Supplemental material is available at http://www.genesdev.org. Received June 6, 2008; revised version accepted August 12, 2008. Eukaryotic DNA is packaged into a chromatin structure of repeating nucleosomes consisting of DNA wrapped around an octamer of core histone proteins (H2A, H2B, H3, and H4). The histone tails, which protrude from the nucleosome, are subjected to a multitude of covalent modifications believed to play a vital role in chromatin remodeling and transcriptional regulation (Jenuwein and Allis 2001;Berger 2007;. One such modification is histone H2B monoubiquitylation. In the yeast S. cerevisiae this process is mediated by the E3 ligase BRE1 (Hwang et al. 2003). In mammals, the hBRE1(RNF20)/RNF40 complex was shown to function as the relevant E3 ligase (Kim et al. 2005;Zhu et al. 2005). In yeast, transcription of several inducible genes is impaired in the absence of ubiquitylated H2B (H2Bub) (Kao et al. 2004). Increased levels of H2Bub occur on the GAL1 core promoter and throughout the transcribed region upon transcriptional activation, with both ubiquitylation and deubiquitylation being required for optimal transcription (Henry et al. 2003;Xiao et al. 2005). Moreover, H2B monoubiquitylation was shown to lead to H3 methylation on Lys 4 and Lys 79, considered marks of actively transcribed genes (Briggs et al. 2002;Sun and Allis 2002). Yet, a recent study suggests that H2B ubiquitylation in S. pombe controls transcriptional elongation by RNA polymerase II (Pol II) independently of H3 methylation (Tanny et al. 2007).Along with the studies linking H2Bub positively with active transcription, other reports suggest a link between

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Requirement of ATM-Dependent Monoubiquitylation of Histone H2B for Timely Repair of DNA Double-Strand Breaks

et al. 2011

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SUMMARY The cellular response to DNA double-strand breaks (DSBs) is mobilized by the protein kinase ATM, which phosphorylates key players in the DNA damage response (DDR) network. A major question is how ATM controls DSB repair. Optimal repair requires chromatin relaxation at damaged sites. Chromatin reorganization is coupled to dynamic alterations in histone posttranslational modifications. Here, we show that in human cells, DSBs induce monoubiquitylation of histone H2B, a modification that is associated in undamaged cells with transcription elongation. We find that this process relies on recruitment to DSB sites and ATM-dependent phosphorylation of the responsible E3 ubiquitin ligase: the RNF20-RNF40 heterodimer. H2B monoubiquitylation is required for timely recruitment of players in the two major DSB repair pathways—nonhomologous end-joining and homologous recombination repair—and optimal repair via both pathways. Our data and previous data suggest a two-stage model for chromatin decondensation that facilitates DSB repair.

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Intratumoral heterogeneity in cancer progression and response to immunotherapy

Vitale

Shema

Loi

et al. 2021

Nat Med

401

243

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CDK9 directs H2B monoubiquitination and controls replication‐dependent histone mRNA 3′‐end processing

et al. 2009

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Post-translational histone modifications have essential roles in controlling nuclear processes; however, the specific mechanisms regulating these modifications and their combinatorial activities remain elusive. Cyclin-dependent kinase 9 (CDK9) regulates gene expression by phosphorylating transcriptional regulatory proteins, including the RNA polymerase II carboxy-terminal domain. Here, we show that CDK9 activity is essential for maintaining global and gene-associated levels of histone H2B monoubiquitination (H2Bub1). Furthermore, CDK9 activity and H2Bub1 help to maintain correct replication-dependent histone messenger RNA (mRNA) 3 0 -end processing. CDK9 knockdown consistently resulted in inefficient recognition of the correct mRNA 3 0 -end cleavage site and led to increased read-through of RNA polymerase II to an alternative downstream polyadenylation signal. Thus, CDK9 acts to integrate phosphorylation during transcription with chromatin modifications to control co-transcriptional histone mRNA processing.

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RNF20 and USP44 Regulate Stem Cell Differentiation by Modulating H2B Monoubiquitylation

et al. 2012

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Summary Embryonic stem cells (ESC) maintain high genomic plasticity, essential for their capacity to enter diverse differentiation pathways. Post-transcriptional modifications of chromatin histones play a pivotal role in maintaining this plasticity. We now report that one such modification, monoubiquitylation of histone H2B on lysine 120 (H2Bub1), catalyzed by the E3 ligase RNF20, increases during ESC differentiation and is required for efficient execution of this process. This increase is particularly important for the transcriptional induction of relatively long genes during ESC differentiation. Furthermore, we identify the deubiquitinase USP44 as a negative regulator of H2B ubiquitylation, whose downregulation during ESC differentiation contributes to the increase in H2Bub1. Our findings suggest that optimal ESC differentiation requires dynamic changes in H2B ubiquitylation patterns, which must occur in a timely and well-coordinated manner.

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Coupled Evolution of Transcription and mRNA Degradation

2011

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mRNA levels are determined by the balance between transcription and mRNA degradation, and while transcription has been extensively studied, very little is known regarding the regulation of mRNA degradation and its coordination with transcription. Here we examine the evolution of mRNA degradation rates between two closely related yeast species. Surprisingly, we find that around half of the evolutionary changes in mRNA degradation were coupled to transcriptional changes that exert opposite effects on mRNA levels. Analysis of mRNA degradation rates in an interspecific hybrid further suggests that opposite evolutionary changes in transcription and in mRNA degradation are mechanistically coupled and were generated by the same individual mutations. Coupled changes are associated with divergence of two complexes that were previously implicated both in transcription and in mRNA degradation (Rpb4/7 and Ccr4-Not), as well as with sequence divergence of transcription factor binding motifs. These results suggest that an opposite coupling between the regulation of transcription and that of mRNA degradation has shaped the evolution of gene regulation in yeast.

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RNF20 Links Histone H2B Ubiquitylation with Inflammation and Inflammation-Associated Cancer

et al. 2016

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SummaryFactors linking inflammation and cancer are of great interest. We now report that the chromatin-targeting E3 ubiquitin ligase RNF20/RNF40, driving histone H2B monoubiquitylation (H2Bub1), modulates inflammation and inflammation-associated cancer in mice and humans. Downregulation of RNF20 and H2Bub1 favors recruitment of p65-containing nuclear factor κB (NF-κB) dimers over repressive p50 homodimers and decreases the heterochromatin mark H3K9me3 on a subset of NF-κB target genes to augment their transcription. Concordantly, RNF20+/− mice are predisposed to acute and chronic colonic inflammation and inflammation-associated colorectal cancer, with excessive myeloid-derived suppressor cells (MDSCs) that may quench antitumoral T cell activity. Notably, colons of human ulcerative colitis patients, as well as colorectal tumors, reveal downregulation of RNF20/RNF40 and H2Bub1 in both epithelium and stroma, supporting the clinical relevance of our tissue culture and mouse model findings.

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Efrat Shema

Monoubiquitinated H2B is associated with the transcribed region of highly expressed genes in human cells

The histone H2B-specific ubiquitin ligase RNF20/hBRE1 acts as a putative tumor suppressor through selective regulation of gene expression

Requirement of ATM-Dependent Monoubiquitylation of Histone H2B for Timely Repair of DNA Double-Strand Breaks

Intratumoral heterogeneity in cancer progression and response to immunotherapy

CDK9 directs H2B monoubiquitination and controls replication‐dependent histone mRNA 3′‐end processing

RNF20 and USP44 Regulate Stem Cell Differentiation by Modulating H2B Monoubiquitylation

Coupled Evolution of Transcription and mRNA Degradation

RNF20 Links Histone H2B Ubiquitylation with Inflammation and Inflammation-Associated Cancer

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