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Oncogene-induced replicative stress (RS) drives tumor progression by disrupting genome stability, primarily through transcription-replication conflicts (TRCs), which promote R-loop accumulation and trigger the DNA damage response (DDR). In this study, we investigate the role of chromatin regulators in exacerbating TRCs and R-loop accumulation in cancer. We find that in breast cancer patients, the simultaneous upregulation of MYC and the H2A.Z-specific chaperone ANP32E correlates with increased genomic instability. Genome-wide analyses reveal that ANP32E-driven H2A.Z turnover alters RNA polymerase II processivity, leading to the accumulation of long R-loops at TRC sites. Furthermore, we show that ANP32E overexpression enhances TRC formation and activates an ATR-dependent DDR, predisposing cancer cells to R-loop-mediated genomic fragility. By exploiting the vulnerability of ANP32E-expressing cancer cells to ATR inhibitors, we find that tumors relied on this DDR pathway, whose inhibition halts their pro-metastatic capacity. These findings identify ANP32E as a key driver of TRC-induced genomic instability, indicating ATR inhibition as a potential therapeutic strategy for ANP32E-overexpressing tumors.

ANP32E drives vulnerability to ATR inhibitors by inducing R-loops-dependent transcription replication conflicts in triple negative breast cancer / Lago, Sara; Poli, Vittoria; Fol, Lisa; Botteon, Mattia; Busi, Federica; Turdo, Alice; Gaggianesi, Miriam; Ciani, Yari; D'Amato, Giacomo; Fagnocchi, Luca; Fasciani, Alessandra; Demichelis, Francesca; Todaro, Matilde; Zippo, Alessio. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - 16:1(2025), pp. 460201-460222. [10.1038/s41467-025-59804-0]

ANP32E drives vulnerability to ATR inhibitors by inducing R-loops-dependent transcription replication conflicts in triple negative breast cancer

Lago, Sara;Poli, Vittoria;Botteon, Mattia;Busi, Federica;Ciani, Yari;D'Amato, Giacomo;Fagnocchi, Luca;Fasciani, Alessandra;Demichelis, Francesca;Zippo, Alessio
2025-01-01

Abstract

Oncogene-induced replicative stress (RS) drives tumor progression by disrupting genome stability, primarily through transcription-replication conflicts (TRCs), which promote R-loop accumulation and trigger the DNA damage response (DDR). In this study, we investigate the role of chromatin regulators in exacerbating TRCs and R-loop accumulation in cancer. We find that in breast cancer patients, the simultaneous upregulation of MYC and the H2A.Z-specific chaperone ANP32E correlates with increased genomic instability. Genome-wide analyses reveal that ANP32E-driven H2A.Z turnover alters RNA polymerase II processivity, leading to the accumulation of long R-loops at TRC sites. Furthermore, we show that ANP32E overexpression enhances TRC formation and activates an ATR-dependent DDR, predisposing cancer cells to R-loop-mediated genomic fragility. By exploiting the vulnerability of ANP32E-expressing cancer cells to ATR inhibitors, we find that tumors relied on this DDR pathway, whose inhibition halts their pro-metastatic capacity. These findings identify ANP32E as a key driver of TRC-induced genomic instability, indicating ATR inhibition as a potential therapeutic strategy for ANP32E-overexpressing tumors.
2025
NATURE COMMUNICATIONS
1
40382323
2-s2.0-105005437028
WOS:001489971900028
Lago, Sara; Poli, Vittoria; Fol, Lisa; Botteon, Mattia; Busi, Federica; Turdo, Alice; Gaggianesi, Miriam; Ciani, Yari; D'Amato, Giacomo; Fagnocchi, Lu...espandi
ANP32E drives vulnerability to ATR inhibitors by inducing R-loops-dependent transcription replication conflicts in triple negative breast cancer / Lago, Sara; Poli, Vittoria; Fol, Lisa; Botteon, Mattia; Busi, Federica; Turdo, Alice; Gaggianesi, Miriam; Ciani, Yari; D'Amato, Giacomo; Fagnocchi, Luca; Fasciani, Alessandra; Demichelis, Francesca; Todaro, Matilde; Zippo, Alessio. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - 16:1(2025), pp. 460201-460222. [10.1038/s41467-025-59804-0]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/480553
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