Zhanyun Tang scite author profile

to mass spectrometry related experiments and analysis; R.H., Z.Y. and B.R. performed the library construction and next-generation sequencing for ChIP-seq and RNA-seq; M.H. and Y.G.Z. synthesized L-lactyl-CoA. H.H. and D.Z. analyzed ChIP-seq and RNA-seq data. G.Z. provided all primary BMDM cell cultures. D.M.C. carried out the bacterial infection experiments, C.C. carried out TAM experiments. Author Information. Y.Z. is a founder, board member, advisor to, and inventor on patents licensed to PTM Bio Inc. L.B. is co-founder and CSO of rMark Bio Inc., and founder and CEO of Onchilles Pharma Inc. Readers are welcome to comment on the online version of the paper. Data availability. The ChIP-seq and RNA-seq data have been made available at the Gene Expression Omnibus (GEO) repository under the accession number GSE115354. The mass spectrometry proteomics data have been deposited to the ProteomeXchange Consortium via the PRIDE 31 partner repository with the dataset identifier PXD014870. All other data are available from the authors upon reasonable request.

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Intracellular Crotonyl-CoA Stimulates Transcription through p300-Catalyzed Histone Crotonylation

Sabari

et al. 2015

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SUMMARY Acetylation of histones at DNA regulatory elements plays a critical role in transcriptional activation. Histones are also modified by other acyl moieties, including crotonyl, yet the mechanisms that govern acetylation versus crotonylation and the functional consequences of this “choice” remain unclear. We show that the coactivator p300 has both crotonyltransferase and acetyltransferase activities and that p300-catalyzed histone crotonylation directly stimulates transcription to a greater degree than histone acetylation. Levels of histone crotonylation are regulated by the cellular concentration of crotonyl-CoA, which can be altered through genetic and environmental perturbations. In a cell-based model of transcriptional activation, increasing or decreasing the cellular concentration of crotonyl-CoA leads to enhanced or diminished gene expression, respectively, which correlates with the levels of histone crotonylation flanking the regulatory elements of activated genes. Our findings support a general principle wherein differential histone acylation (i.e. acetylation versus crotonylation) couples cellular metabolism to the regulation of gene expression.

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Metabolic Regulation of Gene Expression by Histone Lysine β-Hydroxybutyrylation

et al. 2016

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SUMMARY Here we report the identification and verification of a β-hydroxybutyrate-derived protein modification, lysine β-hydroxybutyrylation (Kbhb), as a new type of histone mark. Histone Kbhb marks are dramatically induced in response to elevated β-hydroxybutyrate levels in cultured cells, and in livers from mice subjected to prolonged fasting or streptozotocin-induced diabetic ketoacidosis. In total, we identified 44 histone Kbhb sites, a figure comparable to the known number of histone acetylation sites. By ChIP-seq and RNA-seq analysis, we demonstrate that histone Kbhb is a mark enriched in active gene promoters, and that the increased H3K9bhb levels that occur during starvation are associated with genes up-regulated in starvation-responsive metabolic pathways. Histone β-hydroxybutyrylation thus represents a new epigenetic regulatory mark that couples metabolism to gene expression, offering a new avenue to study chromatin regulation and the diverse functions of β-hydroxybutyrate in the context of important human pathophysiological states, including diabetes, epilepsy, and neoplasia.

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RAD6-Mediated Transcription-Coupled H2B Ubiquitylation Directly Stimulates H3K4 Methylation in Human Cells

Kim

Guermah

McGinty

et al. 2009

Cell

473

542

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SUMMARY H2B ubiquitylation has been implicated in active transcription but is not well understood in mammalian cells. Beyond earlier identification of hBRE1 as the E3 ligase for H2B ubiquitylation in human cells, we now show (i) that hRAD6 serves as the cognate E2 conjugating enzyme, (ii) that hRAD6, through direct interaction with hPAF-bound hBRE1, is recruited to transcribed genes and ubiquitylates chromatinized H2B at lysine 120, (iii) that hPAF-mediated transcription is required for efficient H2B ubiquitylation as a result of hPAF-dependent recruitment of hBRE1-hRAD6 to the Pol II transcription machinery, (iv) that H2B ubiquitylation per se does not affect the level of hPAF-, SII- and p300-dependent transcription and likely functions downstream and (v) that H2B ubiquitylation directly stimulates hSET1-dependent H3K4 di- and tri-methylation. These studies establish the natural H2B ubiquitylation factors in human cells and also detail the mechanistic basis for H2B ubiquitylation and function during transcription.

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Mad2-Independent Inhibition of APCCdc20 by the Mitotic Checkpoint Protein BubR1

et al. 2001

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The mitotic checkpoint blocks the activation of the anaphase-promoting complex (APC) until all sister chromatids have achieved bipolar attachment to the spindle. A checkpoint complex containing BubR1 and Bub3 has been purified from mitotic human cells. Upon checkpoint activation, the BubR1-Bub3 complex interacts with Cdc20. In the absence of Mad2, BubR1 inhibits the activity of APC by blocking the binding of Cdc20 to APC. Surprisingly, the kinase activity of BubR1 is not required for the inhibition of APCCdc20. BubR1 also prevents the activation of APCCdc20 in Xenopus egg extracts, and restores the mitotic arrest in Cdc20-overexpressing cells treated with nocodazole. Because BubR1 also interacts with the mitotic motor CENP-E, the ability of BubR1 to inhibit APC may be regulated by kinetochore tension or occupancy.

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Zhanyun Tang

Metabolic regulation of gene expression by histone lactylation

Intracellular Crotonyl-CoA Stimulates Transcription through p300-Catalyzed Histone Crotonylation

Metabolic Regulation of Gene Expression by Histone Lysine β-Hydroxybutyrylation

RAD6-Mediated Transcription-Coupled H2B Ubiquitylation Directly Stimulates H3K4 Methylation in Human Cells

Mad2-Independent Inhibition of APCCdc20 by the Mitotic Checkpoint Protein BubR1

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