Structural basis for the role of C-terminus acidic tail of Saccharomyces cerevisiae ubiquitin-conjugating enzyme (Rad6) in E3 ligase (Bre1) mediated recognition of histones
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Histone H2B
Ubiquitin-conjugating enzyme
Deubiquitinating enzyme
In eukaryotes, the DNA of the genome is packaged with histone proteins to form nucleosomal filaments, which are, in turn, folded into a series of less well understood chromatin structures. Post-translational modifications of histone tail domains modulate chromatin structure and gene expression. Of these, histone ubiquitination is poorly understood. Here we show that the ubiquitin-conjugating enzyme Rad6 (Ubc2) mediates methylation of histone H3 at lysine 4 (Lys 4) through ubiquitination of H2B at Lys 123 in yeast (Saccharomyces cerevisiae). Moreover, H3 (Lys 4) methylation is abolished in the H2B-K123R mutant, whereas H3-K4R retains H2B (Lys 123) ubiquitination. These data indicate a unidirectional regulatory pathway in which ubiquitination of H2B (Lys 123) is a prerequisite for H3 (Lys 4) methylation. We also show that an H2B-K123R mutation perturbs silencing at the telomere, providing functional links between Rad6-mediated H2B (Lys 123) ubiquitination, Set1-mediated H3 (Lys 4) methylation, and transcriptional silencing. Thus, these data reveal a pathway leading to gene regulation through concerted histone modifications on distinct histone tails. We refer to this as 'trans-tail' regulation of histone modification, a stated prediction of the histone code hypothesis. PMID: 12077605
Histone H2B
Histone Methylation
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Histone H2B
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Histone H2B
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Histone code
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The histone methyltransferase enhancer of zeste 2 (EZH2) is known to be a polycomb protein homologous to Drosophila enhancer of zeste and catalyzes the addition of methyl groups to histone H3 at lysine 27 (H3K27). We previously reported that EZH2 was overexpressed in various types of cancer and plays a crucial role in the cell cycle regulation of cancer cells. In the present study, we demonstrated that EZH2 has the function to monomethylate lysine 120 on histone H2B (H2BK120). EZH2-dependent H2BK120 methylation in cancer cells was confirmed with an H2BK120 methylation-specific antibody. Overexpression of EZH2 significantly attenuated the ubiquitination of H2BK120, a key posttranslational modification of histones for transcriptional regulation. Concordantly, knockdown of EZH2 increased the ubiquitination level of H2BK120, suggesting that the methylation of H2BK120 by EZH2 may competitively inhibit the ubiquitination of H2BK120. Subsequent chromatin immunoprecipitation-Seq and microarray analyses identified downstream candidate genes regulated by EZH2 through the methylation of H2BK120. This is the first report to describe a novel substrate of EZH2, H2BK120, unveiling a new aspect of EZH2 functions in human carcinogenesis.
Histone H2B
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Chromatin immunoprecipitation
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Post-translational covalent conjugation of ubiquitin onto proteins or ubiquitination is important in nearly all cellular processes. Steady-state ubiquitination of individual proteins in vivo is maintained by two countering enzymatic activities: conjugation of ubiquitin by E1, E2 and E3 enzymes and removal by deubiquitinases. Here, we deleted one or more genes encoding deubiquitinases in yeast and evaluated the requirements for ubiquitin conjugation onto a target protein. Our proof-of-principle studies demonstrate that absence of relevant deubiquitinase(s) provides a facile and versatile method that can be used to study the nuances of ubiquitin conjugation and deubiquitination of target proteins in vivo. We verified our method using mutants lacking the deubiquitinases Ubp8 and/or Ubp10 that remove ubiquitin from histone H2B or PCNA. Our studies reveal that the C-terminal coiled-domain of the adapter protein Lge1 and the C-terminal acidic tail of Rad6 E2 contribute to monoubiquitination of histone H2BK123, whereas the distal acidic residues of helix-4 of Rad6, but not the acidic tail, is required for monoubiquitination of PCNA. Further, charged substitution at alanine-120 in the H2B C-terminal helix adversely affected histone H2BK123 monoubiquitination by inhibiting Rad6-Bre1-mediated ubiquitin conjugation and by promoting Ubp8/Ubp10-mediated deubiquitination. In summary, absence of yeast deubiquitinases UBP8 and/or UBP10 allows uncovering the regulation of and requirements for ubiquitin addition and removal from their physiological substrates such as histone H2B or PCNA in vivo.
Deubiquitinating enzyme
Histone H2B
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Post-translational covalent conjugation of ubiquitin onto proteins or ubiquitination is important in nearly all cellular processes. Steady-state ubiquitination of individual proteins in vivo is maintained by two countering enzymatic activities: conjugation of ubiquitin by E1, E2 and E3 enzymes and removal by deubiquitinases. Here, we deleted one or more genes encoding deubiquitinases in yeast and evaluated the requirements for ubiquitin conjugation onto a target protein. Our proof-of-principle studies demonstrate that absence of relevant deubiquitinase(s) provides a facile and versatile method that can be used to study the nuances of ubiquitin conjugation and deubiquitination of target proteins in vivo . We verified our method using mutants lacking the deubiquitinases Ubp8 and/or Ubp10 that remove ubiquitin from histone H2B or PCNA. Our studies reveal that the C-terminal coiled-domain of the adapter protein Lge1 and the C-terminal acidic tail of Rad6 E2 contribute to monoubiquitination of histone H2BK123, whereas the distal acidic residues of helix-4 of Rad6, but not the acidic tail, is required for monoubiquitination of PCNA. Further, charged substitution at alanine-120 in the H2B C-terminal helix adversely affected histone H2BK123 monoubiquitination by inhibiting Rad6-Bre1-mediated ubiquitin conjugation and by promoting Ubp8/Ubp10-mediated deubiquitination. In summary, absence of yeast deubiquitinases UBP8 and/or UBP10 allows uncovering the regulation of and requirements for ubiquitin addition and removal from their physiological substrates such as histone H2B or PCNA in vivo .
Deubiquitinating enzyme
Histone H2B
Ubiquitin-conjugating enzyme
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Histone Methylation
Histone code
Histone H2B
Chromatin immunoprecipitation
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DOT1L is a histone H3 Lys79 methyltransferase whose activity is stimulated by histone H2B Lys120 ubiquitination, suggesting cross-talk between histone H3 methylation and H2B ubiquitination. Here, we present cryo-EM structures of DOT1L complexes with unmodified or H2B ubiquitinated nucleosomes, showing that DOT1L recognizes H2B ubiquitin and the H2A/H2B acidic patch through a C-terminal hydrophobic helix and an arginine anchor in DOT1L, respectively. Furthermore, the structures combined with single-molecule FRET experiments show that H2B ubiquitination enhances a noncatalytic function of the DOT1L-destabilizing nucleosome. These results establish the molecular basis of the cross-talk between H2B ubiquitination and H3 Lys79 methylation as well as nucleosome destabilization by DOT1L.
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