Spatially constrained tandem bromodomain inhibition bolsters sustained repression of BRD4 transcriptional activity for TNBC cell growth

Ren, Chunyan; Zhang, Guangtao; Han, Feifei; Fu, Shihua; Cao, Yingdi; Zhang, Fan; Zhang, Qiang; Meslamani, Jamel; Xu, Yanqing; Ji, Donglei; Cao, Lingling; Zhou, Qian; Cheung, Ka‐Lung; Sharma, Rajal; Babault, Nicolas; Yi, Zhengzi; Zhang, Weijia; Walsh, Martin J.; Zeng, Lei; Zhou, Ming‐Ming

doi:10.1073/pnas.1720000115

Cited by 57 publications

(46 citation statements)

References 34 publications

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“…Our SAXS-guided Rosetta modeling indicated that the Brd4 tandem bromodomains may access conformations in which the two acetyl-lysine binding sites reside as little as 15 Å apart, perhaps allowing for bivalent binding toward adjacent acetylation sites on individual histone tails. These results are consistent with the known ability of bivalent BET bromodomain inhibitors to simultaneously engage both acetyl-lysine binding sites (59, 74, 75). Previous studies of the Taf1 tandem bromodomains demonstrated 8-to 29-fold tighter binding affinity toward diacetylated ( K d = 1.4 to 5.3 µ M) relative to monoacetylated histone H4 tail mimic peptides ( K d ∼40 µ M) and proposed a model in which the two Taf1 bromodomains bivalently engage separate acetyl-lysine residues on a single peptide.…”

Section: Discussionsupporting

confidence: 89%

Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization

Olp

Jackson

Smith

2019

Preprint

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Bromodomain binding of acetyl-lysine residues is a crucial step in many epigenetic mechanisms governing transcription. Nearly half of human bromodomains exist in tandem with at least one other bromodomain on a single protein. The Bromodomain and ExtraTerminal domain (BET) family of proteins (BrdT, Brd2, Brd3 and Brd4) each encode two bromodomains at their N-termini and are important regulators of acetylation-dependent transcription in homeostasis and disease. Previous efforts have focused on identifying protein acetylation sites bound by individual bromodomains. However, the mechanisms through which tandem bromodomains act cooperatively on chromatin are largely unknown. Here, we first used small angle xray scattering combined with Rosetta ab initio modeling to explore conformational space available to BET tandem bromodomains. For Brd4, the flexible tandem bromodomain linker allows for distances between the two acetyl-lysine binding sites ranging from 15 to 157 Å. Using a bioluminescence resonance energy transfer assay, we show a clear distance dependence for Brd4 tandem bromodomain bivalent binding of multiply acetylated histone H4 peptides. However, isothermal titration calorimetry studies revealed Brd4 binding affinity toward multiply acetylated peptides does not correlate with the potential for bivalent binding. We used sucrose gradient assays to provide direct evidence in vitro that Brd4 tandem bromodomains can simultaneously bind and scaffold multiple acetylated nucleosomes. Intriguingly, our bioinformatic analysis of deposited chromatin immunoprecipitation sequencing data indicates that Brd4 colocalizes with subsets of histone acetyl-lysine sites across transcriptionally active chromatin compartments. These findings support our hypothesis that scaffolding of acetylated nucleosomes by Brd4 tandem bromodomains contributes to higher-order chromatin architecture.family of bromodomains (BrdT, Brd2, Brd3 and Brd4) were 49 discovered in 2010 (20, 21) and since have entered clinical trials 50 as potential treatment for cancer (22)(23)(24)(25)(26)(27) and inflammation-51 driven disease (28, 29). However, the molecular mechanisms 52 underlying the potential therapeutic effects of bromodomain 53 inhibitors are poorly understood. As isolated bromodomains 54 harbor relatively weak affinity toward monoacetylated histone 55 tail peptides in vitro (K d = 10 µM -1 mM) (13), multivalency 56 is emerging as an increasingly crucial concept in bromodomain 57 binding of modified chromatin (30, 31). One category of po-58 tential multivalent interactions is the recognition of multiple 59 sites on one histone tail by an individual bromodomain. For 60 instance, the N -terminal bromodomains (BD1) of Brd4 and 61BrdT cooperatively bind two adjacent acetyl-lysine residues 62 (i.e. lysines 5 and 8) on the histone H4 tail (13, 32) with 3-63 to 20-fold tighter affinity compared to either acetylation in 64 isolation (33, 34) suggesting that multiple neighboring acety-65 lation sites are necessary to recruit these bromodomains to 66 D R A F ...

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Section: Discussionsupporting

confidence: 89%

Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization

Olp

Jackson

Smith

2019

Preprint

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“…The experiment was performed as previously described [44]. Briefly, PC3 cells were treated with an increasing amount of C10 and DMSO for 1 h at 37 • C. Following this, the cells were washed with PBS, heated at 49 • C for 5 min, placed at room temperature for 3 min, and treated with liquid nitrogen (−37 • C) water-bath cycles three times.…”

Section: Cellular Thermal Shift Assaymentioning

confidence: 99%

Fli-1 Activation through Targeted Promoter Activity Regulation Using a Novel 3’, 5’-diprenylated Chalcone Inhibits Growth and Metastasis of Prostate Cancer Cells

et al. 2020

IJMS

Self Cite

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The friend leukemia integration 1 (Fli-1) gene is involved in the expression control of key genes in multiple pathogenic/physiological processes, including cell growth, differentiation, and apoptosis; this implies that Fli-1 is a strong candidate for drug development. In our previous study, a 3′,5′-diprenylated chalcone, (E)-1-(2-hydroxy-4-methoxy-3,5-diprenyl) phenyl-3-(3-pyridinyl)-propene-1-one (C10), was identified as a novel anti-prostate cancer (PCa) agent. Here, we investigated the molecular mechanisms underlying the anti-cancer effects of C10 on the growth, metastasis, and invasion of PC3 cells in vitro. Our results show that C10 exhibited a strong inhibitory effect on proliferation and metastasis of PC3 cells via several cellular and flow cytometric analyses. Further mechanism studies revealed that C10 likely serves as an Fli-1 agonist for regulating the expression of Fli-1 target genes including phosphatidylinositol 3-kinase (P110), murine double minute2 (MDM2), B-cell lymphoma-2 (Bcl-2), Src homology-2 domain-containing inositol 5-phosphatase 1 (SHIP-1), and globin transcription factor-1 (Gata-1) as well as the phosphorylation of extracellular-regulated protein kinases 1 (ERK1). Further, we confirmed that C10 can regulate the expressions of vascular endothelial growth factor 1 (VEGF-1), transforming growth factor-β2 (TGF-β2), intercellular cell adhesion molecule-1 (ICAM-1), p53, and matrix metalloproteinase 1 (MMP-1) genes associated with tumor apoptosis, migration, and invasion. Thus, C10 exhibits stronger anticancer activity with novel molecular targets and regulatory molecular mechanisms, indicating its great potency for development as a novel targeted anticancer drug.

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“…But it is noteworthy to mention that the currently available BET inhibitors as single agents, despite their promising anti-cancer activity in animal models, seem to only exhibit limited efficacy in clinical trials 53 . To address potential issues of low potency, next-generation BET-inhibiting compounds are being developed, such as bivalent BET inhibitors that bind to tandem bromodomains simultaneously and PROTAC-based BET degraders, which offer superior therapeutic effects in preclinical studies 54 – 57 . In addition, combination therapy with other synergistic anti-cancer drugs was reported to greatly boost the efficacy of BET inhibition and prevent emergency of drug resistance 58 , 59 .…”

Section: Discussionmentioning

confidence: 99%

ZMYND11-MBTD1 induces leukemogenesis through hijacking NuA4/TIP60 acetyltransferase complex and a PWWP-mediated chromatin association mechanism

Galbo

Gong

et al. 2021

Nat Commun

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Recurring chromosomal translocation t(10;17)(p15;q21) present in a subset of human acute myeloid leukemia (AML) patients creates an aberrant fusion gene termed ZMYND11-MBTD1 (ZM); however, its function remains undetermined. Here, we show that ZM confers primary murine hematopoietic stem/progenitor cells indefinite self-renewal capability ex vivo and causes AML in vivo. Genomics profilings reveal that ZM directly binds to and maintains high expression of pro-leukemic genes including Hoxa, Meis1, Myb, Myc and Sox4. Mechanistically, ZM recruits the NuA4/Tip60 histone acetyltransferase complex to cis-regulatory elements, sustaining an active chromatin state enriched in histone acetylation and devoid of repressive histone marks. Systematic mutagenesis of ZM demonstrates essential requirements of Tip60 interaction and an H3K36me3-binding PWWP (Pro-Trp-Trp-Pro) domain for oncogenesis. Inhibitor of histone acetylation-‘reading’ bromodomain proteins, which act downstream of ZM, is efficacious in treating ZM-induced AML. Collectively, this study demonstrates AML-causing effects of ZM, examines its gene-regulatory roles, and reports an attractive mechanism-guided therapeutic strategy.

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Spatially constrained tandem bromodomain inhibition bolsters sustained repression of BRD4 transcriptional activity for TNBC cell growth

Cited by 57 publications

References 34 publications

Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization

Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization

Fli-1 Activation through Targeted Promoter Activity Regulation Using a Novel 3’, 5’-diprenylated Chalcone Inhibits Growth and Metastasis of Prostate Cancer Cells

ZMYND11-MBTD1 induces leukemogenesis through hijacking NuA4/TIP60 acetyltransferase complex and a PWWP-mediated chromatin association mechanism

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