Litcius/Paper detail

Resolution of R-loops by topoisomerase III-β (TOP3B) in coordination with the DEAD-box helicase DDX5

Sourav Saha, Xi Yang, Shar-yin N. Huang, Keli Agama, Simone A. Baechler, Yilun Sun, Hongliang Zhang, Liton Kumar Saha, Shuaikun Su, Lisa M. Jenkins, Weidong Wang, Yves Pommier

2022Cell Reports70 citationsDOIOpen Access PDF

Abstract

The present study demonstrates how TOP3B is involved in resolving R-loops. We observed elevated R-loops in TOP3B knockout cells (TOP3BKO), which are suppressed by TOP3B transfection. R-loop-inducing agents, the topoisomerase I inhibitor camptothecin, and the splicing inhibitor pladienolide-B also induce higher R-loops in TOP3BKO cells. Camptothecin- and pladienolide-B-induced R-loops are concurrent with the induction of TOP3B cleavage complexes (TOP3Bccs). RNA/DNA hybrid IP-western blotting show that TOP3B is physically associated with R-loops. Biochemical assays using recombinant TOP3B and oligonucleotides mimicking R-loops show that TOP3B cleaves the single-stranded DNA displaced by the R-loop RNA-DNA duplex. IP-mass spectrometry and IP-western experiments reveal that TOP3B interacts with the R-loop helicase DDX5 independently of TDRD3. Finally, we demonstrate that DDX5 and TOP3B are epistatic in resolving R-loops in a pathway parallel with senataxin. We propose a decatenation model for R-loop resolution by TOP3B-DDX5 protecting cells from R-loop-induced damage.

Topics & Concepts

CamptothecinHelicaseTopoisomeraseMolecular biologyRNADNARNA Helicase ALoop (graph theory)DNA damageChemistryDuplex (building)TransfectionOligonucleotideBiologyPhysicsCell biologyGeneBiochemistryMathematicsCombinatoricsCancer therapeutics and mechanismsDNA Repair MechanismsDNA and Nucleic Acid Chemistry