Genomic DNA and cellular RNAs can form a variety of non-B secondary structures, including G-quadruplex (G4) and R-loops. G4s are constituted by stacked guanine tetrads held together by Hoogsteen hydrogen bonds and can form at key regulatory sites of eukaryote genomes and transcripts, including gene promoters, untranslated exon regions and telomeres. R-loops are 3-stranded structures wherein the two strands of a DNA duplex are melted and one of them is annealed to an RNA. Specific G4 binders are intensively investigated to discover new effective anticancer drugs based on a common rationale, i.e.: the selective inhibition of oncogene expression or specific impairment of telomere maintenance. However, despite the high number of known G4 binders, such a selective molecular activity has not been fully established and several published data point to a different mode of action. We will review published data that address the close structural interplay between G4s and R-loops in vitro and in vivo, and how these interactions can have functional consequences in relation to G4 binder activity. We propose that R-loops can play a previously-underestimated role in G4 binder action, in relation to DNA damage induction, telomere maintenance, genome and epigenome instability and alterations of gene expression programs.

Giulia Miglietta, Marco Russo, Giovanni Capranico (2020). G-quadruplex–R-loop interactions and the mechanism of anticancer G-quadruplex binders. NUCLEIC ACIDS RESEARCH, 48(21), 11942-11957 [10.1093/nar/gkaa944].

G-quadruplex–R-loop interactions and the mechanism of anticancer G-quadruplex binders

Giulia Miglietta;Marco Russo;Giovanni Capranico
2020

Abstract

Genomic DNA and cellular RNAs can form a variety of non-B secondary structures, including G-quadruplex (G4) and R-loops. G4s are constituted by stacked guanine tetrads held together by Hoogsteen hydrogen bonds and can form at key regulatory sites of eukaryote genomes and transcripts, including gene promoters, untranslated exon regions and telomeres. R-loops are 3-stranded structures wherein the two strands of a DNA duplex are melted and one of them is annealed to an RNA. Specific G4 binders are intensively investigated to discover new effective anticancer drugs based on a common rationale, i.e.: the selective inhibition of oncogene expression or specific impairment of telomere maintenance. However, despite the high number of known G4 binders, such a selective molecular activity has not been fully established and several published data point to a different mode of action. We will review published data that address the close structural interplay between G4s and R-loops in vitro and in vivo, and how these interactions can have functional consequences in relation to G4 binder activity. We propose that R-loops can play a previously-underestimated role in G4 binder action, in relation to DNA damage induction, telomere maintenance, genome and epigenome instability and alterations of gene expression programs.
2020
Giulia Miglietta, Marco Russo, Giovanni Capranico (2020). G-quadruplex–R-loop interactions and the mechanism of anticancer G-quadruplex binders. NUCLEIC ACIDS RESEARCH, 48(21), 11942-11957 [10.1093/nar/gkaa944].
Giulia Miglietta; Marco Russo; Giovanni Capranico
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/785621
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