Investigating the Effect of Mono- and Dimeric 360A G-Quadruplex Ligands on Telomere Stability by Single Telomere Length Analysis (STELA)

Investigating the Effect of Mono- and Dimeric 360A G-Quadruplex Ligands on Telomere Stability by Single Telomere Length Analysis (STELA)

Telomeres are nucleoprotein structures that cap and protect the natural ends of chromosomes. Telomeric DNA G-rich strands can form G-quadruplex (or G4) structures. Ligands that bind to and stabilize G4 structures can lead to telomere dysfunctions by displacing shelterin proteins and/or by interferin...

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Main Authors: In Pyo Hwang, Patrick Mailliet, Virginie Hossard, Jean-Francois Riou, Anthony Bugaut, Lauréline Roger
Format: Article
Language:English
Published: MDPI AG 2019-02-01
Series:Molecules
Subjects:
G-quadruplex structures
G-quadruplex ligands
telomere
STELA
Online Access:https://www.mdpi.com/1420-3049/24/3/577
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spelling doaj-639e2c04a5934744a170d85881e1796f2020-11-25T01:01:11ZengMDPI AGMolecules1420-30492019-02-0124357710.3390/molecules24030577molecules24030577Investigating the Effect of Mono- and Dimeric 360A G-Quadruplex Ligands on Telomere Stability by Single Telomere Length Analysis (STELA)In Pyo Hwang0Patrick Mailliet1Virginie Hossard2Jean-Francois Riou3Anthony Bugaut4Lauréline Roger5“Structure and Instability of Genomes” Laboratory, Muséum National d’Histoire Naturelle (MNHN), Inserm U1154, CNRS UMR 7196, 43 rue Cuvier, 75005 Paris, France“Structure and Instability of Genomes” Laboratory, Muséum National d’Histoire Naturelle (MNHN), Inserm U1154, CNRS UMR 7196, 43 rue Cuvier, 75005 Paris, France“Structure and Instability of Genomes” Laboratory, Muséum National d’Histoire Naturelle (MNHN), Inserm U1154, CNRS UMR 7196, 43 rue Cuvier, 75005 Paris, France“Structure and Instability of Genomes” Laboratory, Muséum National d’Histoire Naturelle (MNHN), Inserm U1154, CNRS UMR 7196, 43 rue Cuvier, 75005 Paris, France“Structure and Instability of Genomes” Laboratory, Muséum National d’Histoire Naturelle (MNHN), Inserm U1154, CNRS UMR 7196, 43 rue Cuvier, 75005 Paris, France“Structure and Instability of Genomes” Laboratory, Muséum National d’Histoire Naturelle (MNHN), Inserm U1154, CNRS UMR 7196, 43 rue Cuvier, 75005 Paris, FranceTelomeres are nucleoprotein structures that cap and protect the natural ends of chromosomes. Telomeric DNA G-rich strands can form G-quadruplex (or G4) structures. Ligands that bind to and stabilize G4 structures can lead to telomere dysfunctions by displacing shelterin proteins and/or by interfering with the replication of telomeres. We previously reported that two pyridine dicarboxamide G4 ligands, 360A and its dimeric analogue (360A)<sub>2A</sub>, were able to displace in vitro hRPA (a single-stranded DNA-binding protein of the replication machinery) from telomeric DNA by stabilizing the G4 structures. In this paper, we perform for the first time single telomere length analysis (STELA) to investigate the effect of G4 ligands on telomere length and stability. We used the unique ability of STELA to reveal the full spectrum of telomere lengths at a chromosome terminus in cancer cells treated with 360A and (360A)<sub>2A</sub>. Upon treatment with these ligands, we readily detected an increase of ultrashort telomeres, whose lengths are significantly shorter than the mean telomere length, and that could not have been detected by other methods.https://www.mdpi.com/1420-3049/24/3/577G-quadruplex structuresG-quadruplex ligandstelomereSTELA
collection DOAJ
language English
format Article
sources DOAJ
author In Pyo Hwang
Patrick Mailliet
Virginie Hossard
Jean-Francois Riou
Anthony Bugaut
Lauréline Roger
spellingShingle In Pyo Hwang
Patrick Mailliet
Virginie Hossard
Jean-Francois Riou
Anthony Bugaut
Lauréline Roger
Investigating the Effect of Mono- and Dimeric 360A G-Quadruplex Ligands on Telomere Stability by Single Telomere Length Analysis (STELA)
Molecules
G-quadruplex structures
G-quadruplex ligands
telomere
STELA
author_facet In Pyo Hwang
Patrick Mailliet
Virginie Hossard
Jean-Francois Riou
Anthony Bugaut
Lauréline Roger
author_sort In Pyo Hwang
title Investigating the Effect of Mono- and Dimeric 360A G-Quadruplex Ligands on Telomere Stability by Single Telomere Length Analysis (STELA)
title_short Investigating the Effect of Mono- and Dimeric 360A G-Quadruplex Ligands on Telomere Stability by Single Telomere Length Analysis (STELA)
title_full Investigating the Effect of Mono- and Dimeric 360A G-Quadruplex Ligands on Telomere Stability by Single Telomere Length Analysis (STELA)
title_fullStr Investigating the Effect of Mono- and Dimeric 360A G-Quadruplex Ligands on Telomere Stability by Single Telomere Length Analysis (STELA)
title_full_unstemmed Investigating the Effect of Mono- and Dimeric 360A G-Quadruplex Ligands on Telomere Stability by Single Telomere Length Analysis (STELA)
title_sort investigating the effect of mono- and dimeric 360a g-quadruplex ligands on telomere stability by single telomere length analysis (stela)
publisher MDPI AG
series Molecules
issn 1420-3049
publishDate 2019-02-01
description Telomeres are nucleoprotein structures that cap and protect the natural ends of chromosomes. Telomeric DNA G-rich strands can form G-quadruplex (or G4) structures. Ligands that bind to and stabilize G4 structures can lead to telomere dysfunctions by displacing shelterin proteins and/or by interfering with the replication of telomeres. We previously reported that two pyridine dicarboxamide G4 ligands, 360A and its dimeric analogue (360A)<sub>2A</sub>, were able to displace in vitro hRPA (a single-stranded DNA-binding protein of the replication machinery) from telomeric DNA by stabilizing the G4 structures. In this paper, we perform for the first time single telomere length analysis (STELA) to investigate the effect of G4 ligands on telomere length and stability. We used the unique ability of STELA to reveal the full spectrum of telomere lengths at a chromosome terminus in cancer cells treated with 360A and (360A)<sub>2A</sub>. Upon treatment with these ligands, we readily detected an increase of ultrashort telomeres, whose lengths are significantly shorter than the mean telomere length, and that could not have been detected by other methods.
topic G-quadruplex structures
G-quadruplex ligands
telomere
STELA
url https://www.mdpi.com/1420-3049/24/3/577
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