[PDF][PDF] Histone H2A monoubiquitination represses transcription by inhibiting RNA polymerase II transcriptional elongation

W Zhou, P Zhu, J Wang, G Pascual, KA Ohgi, J Lozach… - Molecular cell, 2008 - cell.com
W Zhou, P Zhu, J Wang, G Pascual, KA Ohgi, J Lozach, CK Glass, MG Rosenfeld
Molecular cell, 2008cell.com
Solving the biological roles of covalent histone modifications, including monoubiquitination
of histone H2A, and the molecular mechanisms by which these modifications regulate
specific transcriptional programs remains a central question for all eukaryotes. Here we
report that the N-CoR/HDAC1/3 complex specifically recruits a specific histone H2A ubiquitin
ligase, 2A-HUB/hRUL138, to a subset of regulated gene promoters. 2A-HUB catalyzes
monoubiquitination of H2A at lysine 119, functioning as a combinatoric component of the …
Summary
Solving the biological roles of covalent histone modifications, including monoubiquitination of histone H2A, and the molecular mechanisms by which these modifications regulate specific transcriptional programs remains a central question for all eukaryotes. Here we report that the N-CoR/HDAC1/3 complex specifically recruits a specific histone H2A ubiquitin ligase, 2A-HUB/hRUL138, to a subset of regulated gene promoters. 2A-HUB catalyzes monoubiquitination of H2A at lysine 119, functioning as a combinatoric component of the repression machinery required for specific gene regulation programs. Thus, 2A-HUB mediates a selective repression of a specific set of chemokine genes in macrophages, critically modulating migratory responses to TLR activation. H2A monoubiquitination acts to prevent FACT recruitment at the transcriptional promoter region, blocking RNA polymerase II release at the early stage of elongation. We suggest that distinct H2A ubiquitinases, each recruited based on interactions with different corepressor complexes, contribute to distinct transcriptional repression programs.
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