Abstract A024: Epigenetic control of topoisomerase 1 activity presents a cancer vulnerability

Abstract

Abstract Genome integrity is inherently at risk due to the torsional constraints imposed by DNA transactions. Topoisomerase 1 (TOP1) is essential for genomic stability by removing DNA supercoils generated during replication and transcription. Aberrant stabilization of TOP1:DNA cleavage complexes (TOP1ccs), however, result in DNA lesions that drive transcription-associated mutation burden and are a cytotoxic consequence of many clinically used chemotherapeutic agents. What protects genomic regions prone to elevated torsional stress from the cytotoxic potential of TOP1 enzymes remains unknown. Here, we identify macroH2A1.1, the only nucleosome component with an inherent ability to bind the TOP1cc repair-essential poly(ADP-ribose) (PAR) protein modification, as an essential means to establish a TOP1-permissive chromatin environment. MacroH2A1.1 is one of two alternatively spliced isoforms of the macro-histone variant macroH2A1, and comparative proteomics between the two isoforms uncovered a macroH2A1.1-specific and PARP activity-dependent interaction with the TOP1cc repair effector TDP1 as well as downstream base excision repair (BER) factors XRCC1 and LIG3. Consequently, macroH2A1.1 loss or inactivation of its PAR-binding domain resulted in impaired XRCC1 recruitment to damaged DNA and defective TOP1cc turnover, while the macroH2A1.2 splice isoform is unable to bind PAR or protect from TOP1ccs. Genome-wide mapping of macroH2A1.1, TOP1 and TOP1-DNA adducts identified macroH2A1.1 as a regulatory hub for TOP1 activity that ensures transcriptional integrity by preventing excessive TOP1cc accumulation at transcription start sites. Impaired macroH2A1.1 splicing, a frequent cancer feature, correlated with sensitivity to TOP1 poisons in a pharmaco-genomic screen in breast cancer cells, and macroH2A1.1 inactivation mirrored this effect. Finally, we find that aberrant macroH2A1 alternative splicing in cancer correlates with BER-related mutation signatures. We propose that macroH2A1 alternative splicing serves as an epigenetic modulator of TOP1-associated genome maintenance and a potential cancer vulnerability. Citation Format: Tae-Hee Lee, Xuan C. Qiao, Tongyu Wu, Vladislav Kuzin, Xianzhen Zhou, Vijayalalitha Ramanarayanan, Laura Baranello, Philipp Oberdoerffer. Epigenetic control of topoisomerase 1 activity presents a cancer vulnerability [abstract]. In: Proceedings of the AACR Special Conference in Cancer Research: DNA Damage Repair: From Basic Science to Future Clinical Application; 2024 Jan 9-11; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2024;84(1 Suppl):Abstract nr A024.