Thermodynamic fingerprints of ligand binding to human telomeric G-quadruplexes

Bončina, Matjaž; Podlipnik, Črtomir; Piantanida, Ivo; Eilmes, Julita; Teulade-Fichou, Marie-Paule; Vesnaver, Gorazd; Lah, Jurij

doi:10.1093/nar/gkv1167

Cited by 39 publications

(50 citation statements)

References 65 publications

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“…Remarkably, all PDC–fluorophore conjugates are able to induce conformational changes of hybrid G4‐DNA structures derived from a human telomeric sequence (22AG, 25TAG, 24TTG), namely a conversion to an antiparallel structure evidenced by CD spectroscopy. This behavior has already been documented for PDC and other ligands of bisquinolin(ium) series (360A‐Br, PhenDC 3 , pyridostatin), although the details of this process and the structure of the resulting ligand‐G4 complex are still not clear . Compared with PDC‐L , the effect of the conjugates on this conformational change is somewhat less pronounced.…”

Section: Discussionmentioning

confidence: 76%

“…Binding of ligands to G‐quadruplex structures may induce conformation changes of the latter, due to a particular ligand's affinity to one or another quadruplex fold. The most prominent example of this transformation is the shift from hybrid conformations adopted by the human telomeric sequence (22AG) in K + ‐rich conditions to an antiparallel form, induced by PDC and other ligands belonging to the dicarboxamide series . To assess this phenomenon, we compared CD spectra of several G4‐DNA structures belonging to different topological groups in the absence and in the presence of two molar equivalents of PDC‐L , PDC‐L2‐PY , and three PDC‐coumarin conjugates differing in linker length ( PDC‐L1‐C2 , PDC‐L2‐C2 , PDC‐L3‐C2 ).…”

Section: Resultsmentioning

confidence: 99%

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Topology‐Selective, Fluorescent “Light‐Up” Probes for G‐Quadruplex DNA Based on Photoinduced Electron Transfer

Xie

Reznichenko

Chaput

et al. 2018

Chemistry A European J

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Six novel probes were prepared by covalent attachment of a G4-DNA ligand (bis(quinolinium) pyridodicarboxamide; PDC) to various coumarin or pyrene fluorophores. In the absence of DNA, the fluorescence of all probes is quenched due to intramolecular photoinduced electron transfer (PET), as evidenced by photophysical and electrochemical studies, molecular modeling, and DFT calculations. All probes demonstrate similarly high thermal stabilization of various G4-DNA substrates belonging to different folding topologies, as assessed by fluorescence melting experiments; however, their fluorimetric response is strongly heterogeneous with respect to the structures of the probes and G4-DNA targets. Thus, the probes containing the 7-diethylaminocoumarin fluorophore demonstrate significant fluorescence enhancement in the presence of G4-DNA, with the strongest "light-up" response (20- to 180-fold) observed for antiparallel G4 structures as well as for hybrid G4 structures, formed by the variants of human telomeric sequence and capable of a conformation change to the antiparallel isoform. These results shed light on the influence of the linker and electronic properties of fluorophores on the efficiency of G4-DNA "light-up" probes operating via PET.

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Section: Discussionmentioning

confidence: 76%

Section: Resultsmentioning

confidence: 99%

Topology‐Selective, Fluorescent “Light‐Up” Probes for G‐Quadruplex DNA Based on Photoinduced Electron Transfer

Xie

Reznichenko

Chaput

et al. 2018

Chemistry A European J

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“…These differences in binding thermodynamics between the different ligands indicate that besides the NDI scaffold, the side chains play an important role in binding to the oligonucleotide. Furthermore, binding of imidazolium‐glycoside 3 , imidazolium 5 and methylpiperazine 6 to telo23 K + is greater than that of cationic porphyrin TmPyP4 as measured by Bončina et al., and of a similar magnitude as that of the quadruplex ligand Phen‐DC3 …”

Section: Figurementioning

confidence: 68%

Divalent Naphthalene Diimide Ligands Display High Selectivity for the Human Telomeric G‐quadruplex in K⁺ Buffer

Street

Chin²,

Hollingworth

et al. 2017

Chemistry A European J

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Selective G‐quadruplex ligands offer great promise for the development of anti‐cancer therapies. A novel series of divalent cationic naphthalene diimide ligands that selectively bind to the hybrid form of the human telomeric G‐quadruplex in K+ buffer are described herein. We demonstrate that an imidazolium‐bearing mannoside‐conjugate is the most selective ligand to date for this quadruplex against several other quadruplex and duplex structures. We also show that a similarly selective methylpiperazine‐bearing ligand was more toxic to HeLa cancer cells than doxorubicin, whilst exhibiting three times less toxicity towards fetal lung fibroblasts WI‐38.

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“…Indeed, the characterization of ligand binding to G-quadruplexes should not be limited to binding affinity, but should also consider ligand-induced changes in the target conformation. It was recently shown that the binding of some of the most potent ligands known to date (360A, Phen-DC3 and pyridostatin) was accompanied by the ejection of one cation (85,86), suggesting that the ligands preferentially bind to 2-quartet antiparallel structures. Species that are off-pathway in the folding of model oligonucleotides in vitro can become the predominant species in another environment.…”

Section: Resultsmentioning

confidence: 99%

Folding and misfolding pathways of G-quadruplex DNA

Marchand¹,

Gabelica²

2016

Nucleic Acids Res

155

245

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G-quadruplexes adopt various folding topologies, but information on their folding pathways remains scarce. Here, we used electrospray mass spectrometry to detect and quantify the specifically bound potassium ions, and circular dichroism to characterize the stacking topology of each ensemble. For human telomeric (hTel) sequences containing the d((GGGTTA)3GGG) core, K+ binding affinity and cooperativity strongly depends on the chosen construct. The shortest sequences bind only one K+ at low KCl concentration, and this 2-quartet G-quadruplex is antiparallel. Flanking bases increase the K+ binding cooperativity. To decipher the folding pathways, we investigated the kinetics of K+ binding to telomeric (hybrid) and c-myc (parallel) G-quadruplexes. G-quadruplexes fold via branched pathways with multiple parallel reactions. Up to six states (one ensemble without K+, two ensembles with 1-K+ and three ensembles with 2-K+) are separated based on their formation rates and ion mobility spectrometry. All G-quadruplexes first form long-lived misfolded structures (off-pathway compared to the most stable structures) containing one K+ and two quartets in an antiparallel stacking arrangement. The results highlight the particular ruggedness of G-quadruplex nucleic acid folding landscapes. Misfolded structures can play important roles for designing artificial G-quadruplex based structures, and for conformational selection by ligands or proteins in a biological context.

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Thermodynamic fingerprints of ligand binding to human telomeric G-quadruplexes

Cited by 39 publications

References 65 publications

Topology‐Selective, Fluorescent “Light‐Up” Probes for G‐Quadruplex DNA Based on Photoinduced Electron Transfer

Topology‐Selective, Fluorescent “Light‐Up” Probes for G‐Quadruplex DNA Based on Photoinduced Electron Transfer

Divalent Naphthalene Diimide Ligands Display High Selectivity for the Human Telomeric G‐quadruplex in K⁺ Buffer

Folding and misfolding pathways of G-quadruplex DNA

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Thermodynamic fingerprints of ligand binding to human telomeric G-quadruplexes

Cited by 39 publications

References 65 publications

Topology‐Selective, Fluorescent “Light‐Up” Probes for G‐Quadruplex DNA Based on Photoinduced Electron Transfer

Topology‐Selective, Fluorescent “Light‐Up” Probes for G‐Quadruplex DNA Based on Photoinduced Electron Transfer

Divalent Naphthalene Diimide Ligands Display High Selectivity for the Human Telomeric G‐quadruplex in K+ Buffer

Folding and misfolding pathways of G-quadruplex DNA

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Product

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Divalent Naphthalene Diimide Ligands Display High Selectivity for the Human Telomeric G‐quadruplex in K⁺ Buffer