Harnessing transcriptional regulation of alternative end-joining to predict cancer treatment.

IF 3.4 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY NAR cancer Pub Date : 2025-03-07 eCollection Date: 2025-03-01 DOI:10.1093/narcan/zcaf007

Roderic Espín, Ferran Medina-Jover, Javier Sigüenza-Andrade, Sònia Farran-Matas, Francesca Mateo, Agnes Figueras, Rosario T Sanz, Guillermo Pablo Vicent, Arzoo Shabbir, Lara Ruiz-Auladell, Emilio Racionero-Andrés, Irene García, Alexandra Baiges, Lídia Franco-Luzón, Adrián Martínez-Tebar, Miguel Angel Pardo-Cea, María Martínez-Iniesta, Xieng Chen Wang, Elisabet Cuyàs, Javier A Menendez, Marta Lopez-Cerda, Purificacion Muñoz, Ivonne Richaud, Angel Raya, Isabel Fabregat, Alberto Villanueva, Xènia Serrat, Julián Cerón, Montserrat Alemany, Inés Guix, Andrea Herencia-Ropero, Violeta Serra, Rehna Krishnan, Karim Mekhail, Razqallah Hakem, Jordi Bruna, Mary Helen Barcellos-Hoff, Francesc Viñals, Álvaro Aytes, Miquel Angel Pujana

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Abstract

Alternative end-joining (alt-EJ) is an error-prone DNA repair pathway that cancer cells deficient in homologous recombination rely on, making them vulnerable to synthetic lethality via inhibition of poly(ADP-ribose) polymerase (PARP). Targeting alt-EJ effector DNA polymerase theta (POLθ), which synergizes with PARP inhibitors and can overcome resistance, is of significant preclinical and clinical interest. However, the transcriptional regulation of alt-EJ and its interactions with processes driving cancer progression remain poorly understood. Here, we show that alt-EJ is suppressed by hypoxia while positively associated with MYC (myelocytomatosis oncogene) transcriptional activity. Hypoxia reduces PARP1 and POLQ expression, decreases MYC binding at their promoters, and lowers PARylation and alt-EJ-mediated DNA repair in cancer cells. Tumors with HIF1A mutations overexpress the alt-EJ gene signature. Inhibition of hypoxia-inducible factor 1α or HIF1A expression depletion, combined with PARP or POLθ inhibition, synergistically reduces the colony-forming capacity of cancer cells. Deep learning reveals the anticorrelation between alt-EJ and hypoxia across regions in tumor images, and the predictions for these and MYC activity achieve area under the curve values between 0.70 and 0.86. These findings further highlight the critical role of hypoxia in modulating DNA repair and present a strategy for predicting and improving outcomes centered on targeting alt-EJ.

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