Abstract 3367: R-loop type determines the orientation of transcription-replication conflicts attenuated by transcription factor IIS

Abstract

Abstract During human Topoisomerase I (Top1) catalytic activity, a transient Top1-DNA cleavage complex (Top1cc) forms to allow DNA relaxation. Top1ccs can be stabilized by antitumor Top1 poisons, such as clinically-effective camptothecin analogs. Camptothecin-stabilized Top1ccs can lead to R-loop-dependent transcription-replication conflicts (TRCs), single-end DNA double-strand breaks (seDSBs) and genome instability in cancer cells. To define the genomic location of TRCs and the underlying mechanisms, we integrated genomic maps of Top1cc-induced DNA cleavage by END-seq and DNA:RNA hybrids by DRIP, determined the cell-cycle specificity of micronuclei formation and the effects of elongation transcription factor IIS (TFIIS). We have defined the genomic sites of both seDSBs and increased R-loop levels (gains) induced by Top1ccs. seDSBs are highly enriched at regions with R-loop gains at highly-transcribed genes in early replicating zones. Kinetics analyses of R-loops and genomic ChIP data of RNA polymerase II (RNAPII) revealed that R-loop gains can either be upstream or downstream of RNAPII. TFIIS effects showed that downstream R-loop gains can follow RNAPII backtracking and arrest. seDSB strandness showed that co-directional TRCs occur mainly at downstream hybrid-associated RNAPII, whereas head-on TRCs occur mainly at upstream hybrid-associated RNAPII. Therefore, Top1ccs can increase two structurally-different R-loops and R-loop-associated backtracked RNAPII causes co-directional TRCs at higher rate than head-on collisions. Moreover, Top1ccs trigger micronuclei formation at G1/early S, but not late S/G2, which are attenuated by TFIIS. Thus, our findings establish a role of RNAPII backtracking at highly-transcribed genes in Top1cc-induced co-directional TRCs and micronuclei formation. The findings can accelerate the development of new effective strategies to treat cancer patients. (Supported by Associazione Italiana per la Ricerca sul Cancro, Milan, Italy - IG 2019 - ID. 23032 to C.G. and by the European Union - NextGenerationEU through the Italian Ministry of University and Research under PNRR - M4C2-I1.3 Project PE_00000019 "HEAL ITALIA" to G.C., CUP J33C22002920006). Citation Format: Renée C. Duardo, Jessica Marinello, Marco Russo, Sara Morelli, Simona Pepe, Federico Guerra, Belen Gomez-González, Andrés Aguilera, Giovanni Capranico. R-loop type determines the orientation of transcription-replication conflicts attenuated by transcription factor IIS [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 3367.