A Transcription Factor Pulse Can Prime Chromatin for Heritable Transcriptional Memory

Iberg-Badeaux, Aimee; Collombet, Samuel; Beaugerie, Laurent; Oevelen, Chris van; Chin, Kuo-Kai; Thieffry, Denis; Graf, Thomas; Shi, Yang

doi:10.1128/mcb.00372-16

Cited by 15 publications

(5 citation statements)

References 42 publications

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“…Consistent with this, we find that chromatin opening follows C/EBPα binding and that this results in subsequent enhancer transcription. These observations are consistent with the capacity of the pioneering factor C/EBPα to induce DNA opening ( Iberg-Badeaux et al, 2017 ; van Oevelen et al, 2015 ), and its ability to reorganize chromatin states and genome architecture before gene expression changes ( Stadhouders et al, 2018 ). It remains controversial whether enhancer transcription is required for enhancer priming ( Calo and Wysocka, 2013 ; Dorighi et al, 2017 ; Kaikkonen et al, 2013 ), but our data support that in our system the chromatin modification H3K4me1 generally precedes nucleosome depletion and enhancer transcription ( Bonn et al, 2012 ; Creyghton et al, 2010 ; Rada-Iglesias et al, 2011 ; Wamstad et al, 2012 ).…”

Section: Discussionsupporting

confidence: 82%

Evidence for additive and synergistic action of mammalian enhancers during cell fate determination

Choi

Lysakovskaia

Stik

et al. 2021

eLife

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Enhancer activity drives cell differentiation and cell fate determination, but it remains unclear how enhancers cooperate during these processes. Here we investigate enhancer cooperation during transdifferentiation of human leukemia B-cells to macrophages. Putative enhancers are established by binding of the pioneer factor C/EBPα followed by chromatin opening and enhancer RNA (eRNA) synthesis from H3K4-monomethylated regions. Using eRNA synthesis as a proxy for enhancer activity, we find that most putative enhancers cooperate in an additive way to regulate transcription of assigned target genes. However, transcription from 136 target genes depends exponentially on the summed activity of its putative paired enhancers, indicating that these enhancers cooperate synergistically. The target genes are cell type-specific, suggesting that enhancer synergy can contribute to cell fate determination. Enhancer synergy appears to depend on cell type-specific transcription factors, and such interacting enhancers are not predicted from occupancy or accessibility data that are used to detect superenhancers.

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Section: Discussionsupporting

confidence: 82%

Evidence for additive and synergistic action of mammalian enhancers during cell fate determination

Choi

Lysakovskaia

Stik

et al. 2021

eLife

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“…In our model, pre-incubation with pan-methylation inhibitor MTA did not abolish DCATH-2 training of dTHP-1 cells. Similarly, long-term transcriptional memory in a B cell to macrophage differentiation model was found to be independent of H3K4 methylation ( 60 ). In this model, LPS restimulation was correlated to repressive histone H3K27me3 mark demethylation.…”

Section: Discussionmentioning

confidence: 99%

Innate Immune Training of Human Macrophages by Cathelicidin Analogs

et al. 2022

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Trained innate immunity can be induced in human macrophages by microbial ligands, but it is unknown if exposure to endogenous alarmins such as cathelicidins can have similar effects. Previously, we demonstrated sustained protection against infection by the chicken cathelicidin-2 analog DCATH-2. Thus, we assessed the capacity of cathelicidins to induce trained immunity. PMA-differentiated THP-1 (dTHP1) cells were trained with cathelicidin analogs for 24 hours and restimulated after a 3-day rest period. DCATH-2 training of dTHP-1 cells amplified their proinflammatory cytokine response when restimulated with TLR2/4 agonists. Trained cells displayed a biased cellular metabolism towards mTOR-dependent aerobic glycolysis and long-chain fatty acid accumulation and augmented microbicidal activity. DCATH-2-induced trained immunity was inhibited by histone acetylase inhibitors, suggesting epigenetic regulation, and depended on caveolae/lipid raft-mediated uptake, MAPK p38 and purinergic signaling. To our knowledge, this is the first report of trained immunity by host defense peptides.

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“…HSR is often ectopically activated in cancers: arsenic is a transforming agent that in addition to mutations can induce epigenetic changes (54), and heat has been recently shown to induce transcriptional memory (45). Changes prompted by stimuli should depend on transcriptional responses to activate transcription factor binding to DNA, but not necessarily transcription (55).…”

Section: Discussionmentioning

confidence: 99%

Transcriptional Responses of Cancer Cells to Heat Shock-Inducing Stimuli Involve Amplification of Robust HSF1 Binding

Dastidar

Kumar

Lauckner

et al. 2022

Preprint

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Responses of cells to signals are increasingly discovered to involve the binding of sequence specific transcription factors outside of known target genes. We wanted to determine to what extent the genome-wide binding and function of a transcription factor are shaped by the cell type versus the stimulus. To do so, we induced the Heat Shock Response pathway in two distant cell lines with two different stimuli and related the binding of its master regulator HSF1 to nascent RNA and chromatin accessibility. We show that HSF1 binding patterns robustly retain their identity under different magnitudes of activation so that common HSF1 binding is globally associated with stimulus-specific transcription outcomes. HSF1-induced increase in DNA accessibility was modest in scale but occurred predominantly at remote genomic sites. Apart from regulating transcription at existing elements including promoters and enhancers, responses to heat shock may directly engage inactive chromatin.

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A Transcription Factor Pulse Can Prime Chromatin for Heritable Transcriptional Memory

Cited by 15 publications

References 42 publications

Evidence for additive and synergistic action of mammalian enhancers during cell fate determination

Evidence for additive and synergistic action of mammalian enhancers during cell fate determination

Innate Immune Training of Human Macrophages by Cathelicidin Analogs

Transcriptional Responses of Cancer Cells to Heat Shock-Inducing Stimuli Involve Amplification of Robust HSF1 Binding

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