Genome Organization Drives Chromosome Fragility

Canela, Andrés; Maman, Yaakov; Jung, Seolkyoung; Wong, Nancy; Callén, Elsa; Day, Amanda; Kieffer-Kwon, Kyong Rim; Pękowska, Aleksandra; Zhang, Hongliang; Rao, Suhas S.P.; Huang, Su Chen; McKinnon, Peter J.; Aplan, Peter D.; Pommier, ﻿Yves; Aiden, E; Casellas, Rafael; Nussenzweig, André

doi:10.1016/j.cell.2017.06.034

Cited by 322 publications

(444 citation statements)

References 70 publications

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“…DSB sites were still predicted well (AUROC = 0.869 and AUPR = 0.792; Additional file 1: Figure S5a and S5b), and CTCF and H3K4me1 were the most highly predictive variables (Additional file 1: Figure S5c). This revealed enhancer looping as a major driver of DSBs, in agreement with recent studies showing that DSBs form at loop anchors [35] and that CTCF facilitates DSB repair [36]. These results demonstrate that DSBs can be accurately predicted at less than 1-kb resolution using just a small amount of data.…”

Section: Prediction Using Epigenomic and Chromatin Datasupporting

confidence: 77%

“…Based on lasso regression, we found that the CTCF motif had the highest beta coefficient (β = 3.22), corresponding to OR = 25 (Fig. 7c), supporting recent evidence showing that long-range contacts are involved in DNA repair [25,35,41]. Furthermore, motifs of tumor proteins p53, p63, and p73 had high coefficients (β > 2.03, OR > 7.6), in agreement with previous predictions based on To assess the significance of those motifs, we built a logistic regression model without any regularization including all motifs with β > 0.5.…”

Section: Prediction From Dna Motifs and Shapementioning

confidence: 52%

“…On average, the BLISS signal accordingly increased with the predicted DSB signal (Additional file 1: Figure S12b). For MCF-7 cells, we used DNase-seq, CTCF, H3K4me1/me3, H3K9ac/me3, and H3K27me3 for prediction and END-seq for validation [35]. The model identified 54 746 bins with a high DSB score (predicted DSBs) and 84 576 bins with a low DSB score (predicted controls).…”

Section: Prediction In Another Cell Typementioning

confidence: 99%

“…We also used double-strand DNA breaks mapped by END-seq in untreated and etoposide-treated MCF-7 cells (human breast cancer) from GSE99197 [35].…”

Section: Double-strand Breaksmentioning

confidence: 99%

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Predicting double-strand DNA breaks using epigenome marks or DNA at kilobase resolution

Mourad

Cuvier

2017

Preprint

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Double-strand breaks (DSBs) result from the attack of both DNA strands by multiple sources, including radiation and chemicals. DSBs can cause the abnormal chromosomal rearrangements associated with cancer. Recent techniques allow the genome-wide mapping of DSBs at high resolution, enabling the comprehensive study of their origins. However, these techniques are costly and challenging. Hence, we devise a computational approach to predict DSBs using the epigenomic and chromatin context, for which public data are readily available from the ENCODE project. We achieve excellent prediction accuracy at high resolution. We identify chromatin accessibility, activity, and long-range contacts as the best predictors.

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Section: Prediction Using Epigenomic and Chromatin Datasupporting

confidence: 77%

Section: Prediction From Dna Motifs and Shapementioning

confidence: 52%

Section: Prediction In Another Cell Typementioning

confidence: 99%

“…We also used double-strand DNA breaks mapped by END-seq in untreated and etoposide-treated MCF-7 cells (human breast cancer) from GSE99197 [35].…”

Section: Double-strand Breaksmentioning

confidence: 99%

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Predicting double-strand DNA breaks using epigenome marks or DNA at kilobase resolution

Mourad

Cuvier

2017

Preprint

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“…In addition to TDP2-related functions, ZNF451 displays TDP2-independent effects on the cellular response to TOP2 poisoning that will require further investigation. It will be important in future work to elucidate the mechanics of ZNF451-TDP2 influence on TOP2 and its potential for modulating TOP2 regulation of genome dynamics and transcription (4, 12, 31, 32). Given ZNF451 association with TDP2- mediated TOP2 repair, we propose renaming it to ZATT ( Z inc finger protein A ssociated with T DP2 and T OP2) to appropriately reflect these cellular functions.…”

mentioning

confidence: 99%

ZATT (ZNF451)–mediated resolution of topoisomerase 2 DNA-protein cross-links

Schellenberg

Lieberman

Herrero-Ruiz

et al. 2017

Science

131

154

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Topoisomerase 2 (TOP2) DNA transactions are essential for life, and proceed via formation of the TOP2 cleavage complex (TOP2cc), a covalent enzyme-DNA reaction intermediate that is vulnerable to trapping by potent anticancer TOP2 drugs. How genotoxic TOP2 DNA-protein crosslinks are resolved is unclear. Here, we show that the SUMO ligase ZATT (ZNF451) is a multifunctional DNA repair factor that controls cellular responses to TOP2 damage. ZATT binding to TOP2cc facilitates a proteasome-independent Tyrosyl-DNA phosphodiesterase 2 (TDP2) hydrolase activity on stalled TOP2cc. The ZATT SUMO ligase activity further promotes TDP2 interactions with SUMOylated TOP2, regulating efficient TDP2 recruitment through a "split-SIM" SUMO2 engagement platform. These findings uncover a ZATT–TDP2 catalyzed and SUMO2-modulated pathway for direct resolution of TOP2cc.

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Transcription of carbonyl reductase 1 is regulated by DNA topoisomerase II beta

et al. 2020

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DNA topoisomerase II beta (TOP2B) has a role in transcriptional regulation. Here, to further investigate transcriptional regulation by TOP2B, we used RNA-sequencing and real-time PCR to analyse the differential gene expression profiles of wild-type and two independent TOP2B-null pre-B Nalm-6 cell lines, one generated by targeted insertion and the other using CRISPR-Cas9 gene editing. We identified carbonyl reductase 1 (CBR1) among the most significantly downregulated genes in these TOP2B-null cells. Reduced CBR1 expression was accompanied by loss of binding of the transcription factors USF2 and MAX to the CBR1 promoter. We describe possible mechanisms by which loss of TOP2B results in CBR1 downregulation. To our knowledge, this is the first report of a link between TOP2B and CBR1.

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Genome Organization Drives Chromosome Fragility

Cited by 322 publications

References 70 publications

Predicting double-strand DNA breaks using epigenome marks or DNA at kilobase resolution

Predicting double-strand DNA breaks using epigenome marks or DNA at kilobase resolution

ZATT (ZNF451)–mediated resolution of topoisomerase 2 DNA-protein cross-links

Transcription of carbonyl reductase 1 is regulated by DNA topoisomerase II beta

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