Telomeres and telomerase are key players in tumorogenesis. Among the various strategies proposed for telomerase inhibition or telomere uncapping, the stabilization of telomeric G-quadruplex (G4) ...structures is a very promising one. Additionally, G4 stabilizing ligands also act over tumors mediated by the alternative elongation of telomeres. Accordingly, the discovery of novel compounds able to act on telomeres and/or inhibit the telomerase enzyme by stabilizing DNA telomeric G4 structures as well as the development of approaches efficiently prioritizing such compounds constitute active areas of research in computational medicinal chemistry and anticancer drug discovery. In this direction, we applied a virtual screening strategy based on the rigorous application of QSAR best practices and its harmonized integration with structure-based methods. More than 600,000 compounds from commercial databases were screened, the first 99 compounds were prioritized, and 21 commercially available and structurally diverse candidates were purchased and submitted to experimental assays. Such strategy proved to be highly efficient in the prioritization of G4 stabilizer hits, with a hit rate of 23.5%. The best G4 stabilizer hit found exhibited a shift in melting temperature from FRET assay of +7.3 °C at 5 μM, while three other candidates also exhibited a promising stabilizing profile. The two most promising candidates also exhibited a good telomerase inhibitory ability and a mild inhibition of HeLa cells growth. None of these candidates showed antiproliferative effects in normal fibroblasts. Finally, the proposed virtual screening strategy proved to be a practical and reliable tool for the discovery of novel G4 ligands which can be used as starting points of further optimization campaigns.
Intramolecular G-quadruplexes formed by a single DNA strand have attracted much interest due to the possibility that they may form in telomeres, oncogene promoter sequences and other biologically ...relevant regions of the genome. Therefore, it is important to understand the rules that govern the formation of these intramolecular structures and to determine their stabilities. We compared here 27 different sequences containing four tracts of three guanines with a medium (3) or relatively long (6–9 bases) central loop and two loops composed of a single nucleotide H (A, T or C) corresponding to the GGG
HGGG
N
3–9
GGG
HGGG motif. These sequences are similar to sequence motifs that can be found in repeated and promoter sequences. Several conclusions were reached: (i) all sequences are prone to form very stable quadruplexes in potassium (
T
m between 55
°C and 83
°C); (ii) these quadruplexes also form in sodium but with a strongly decreased
T
m, with a 21 to 36
°C difference in melting temperature between Na
+ and K
+; (iii) a long (9 bases) central loop had a minimal deleterious impact on the stability of the quadruplex; (iv) pyrimidines are preferred over adenine in both single-base loops; (v) the folding topology is relatively robust in potassium: the CD spectra of all oligonucleotides matched the one of all-parallel stranded reference quadruplexes; (vi) conversely, in sodium the folding is diverse and sequence-dependent, as judged from CD and electrophoresis results.
DOTASQ (for DOTA-templated Synthetic G-quartet) is the first prototype of nature-inspired G-quadruplex ligand: its design, founded on a possible intramolecular G-quartet formation, enables it to ...interact with G-quadruplex DNA via an unprecedented nature-mimicking binding mode, based on the association between two G-quartets, one being native (quadruplex) and the other one artificial (ligand).
A series of new 2,4-bis(substituted-aminomethyl)phenylquinoline, 1,3-bis(substituted-aminomethyl)phenylisoquinoline, and 2,4-bis(substituted-aminomethyl)phenylquinazoline derivatives was designed, ...synthesised, and evaluated in vitro against three protozoan parasites (Plasmodium falciparum, Leishmania donovani, and Trypanosoma brucei brucei). Biological results showed antiprotozoal activity with IC
50
values in the µM range. In addition, the in vitro cytotoxicity of these original molecules was assessed with human HepG2 cells. The quinoline 1c was identified as the most potent antimalarial candidate with a ratio of cytotoxic to antiparasitic activities of 97 against the P. falciparum CQ-sensitive strain 3D7. The quinazoline 3h was also identified as the most potent trypanosomal candidate with a selectivity index (SI) of 43 on T. brucei brucei strain. Moreover, as the telomeres of the parasites P. falciparum and Trypanosoma are possible targets of this kind of nitrogen heterocyclic compounds, we have also investigated stabilisation of the Plasmodium and Trypanosoma telomeric G-quadruplexes by our best compounds through FRET melting assays.
Macrocyclic scaffolds are particularly attractive for designing selective G-quadruplex ligands essentially because, on one hand, they show a poor affinity for the “standard” B-DNA conformation and, ...on the other hand, they fit nicely with the external G-quartets of quadruplexes. Stimulated by the pioneering studies on the cationic porphyrin TMPyP4 and the natural product telomestatin, follow-up studies have developed, rapidly leading to a large diversity of macrocyclic structures with remarkable-quadruplex binding properties and biological activities. In this review we summarize the current state of the art in detailing the three main categories of quadruplex-binding macrocycles described so far (telomestatin-like polyheteroarenes, porphyrins and derivatives, polyammonium cyclophanes), and in addressing both synthetic issues and biological aspects.
A simple thermal melting experiment may be used to demonstrate the stabilization of a given structure by a ligand (usually a small molecule, sometimes a peptide). Preparation of the sample is ...straightforward, and the experiment itself requires an inexpensive apparatus. Furthermore, reasonably low amounts of sample are required. A qualitative analysis of the data is simple: An increase in the melting temperature (T(m)) indicates preferential binding to the folded form as compared to the unfolded form. However, it is perilous to derive an affinity constant from an increase in T(m) as other factors play a role.
G4‐RNA: We report here the formation of a RNA–guanine quadruplex structure in the 5′ part of hTERC, and we demonstrate on a model system that the interaction of this 5′ part with a guanine quadruplex ...ligand prevents P1 helix formation.
Abstract
Genomic sequences susceptible to form G-quadruplexes (G4s) are always flanked by other nucleotides, but G4 formation in vitro is generally studied with short synthetic DNA or RNA ...oligonucleotides, for which bases adjacent to the G4 core are often omitted. Herein, we systematically studied the effects of flanking nucleotides on structural polymorphism of 371 different oligodeoxynucleotides that adopt intramolecular G4 structures. We found out that the addition of nucleotides favors the formation of a parallel fold, defined as the ‘flanking effect’ in this work. This ‘flanking effect’ was more pronounced when nucleotides were added at the 5′-end, and depended on loop arrangement. NMR experiments and molecular dynamics simulations revealed that flanking sequences at the 5′-end abolish a strong syn-specific hydrogen bond commonly found in non-parallel conformations, thus favoring a parallel topology. These analyses pave a new way for more accurate prediction of DNA G4 folding in a physiological context.
Graphical Abstract
Graphical Abstract
G-quadruplexes (G4) in the genomic context are flanked by other nucleotides. The addition of nucleotides favors the formation of a parallel fold, defined as the ‘flanking effect’, suggesting the biologically relevant G4 topology in vivo may often be parallel.
Recent studies indicate that i‐DNA, a four‐stranded cytosine‐rich DNA also known as the i‐motif, is actually formed in vivo; however, a systematic study on sequence effects on stability has been ...missing. Herein, an unprecedented number of different sequences (271) bearing four runs of 3–6 cytosines with different spacer lengths has been tested. While i‐DNA stability is nearly independent on total spacer length, the central spacer plays a special role on stability. Stability also depends on the length of the C‐tracts at both acidic and neutral pHs. This study provides a global picture on i‐DNA stability thanks to the large size of the introduced data set; it reveals unexpected features and allows to conclude that determinants of i‐DNA stability do not mirror those of G‐quadruplexes. Our results illustrate the structural roles of loops and C‐tracts on i‐DNA stability, confirm its formation in cells, and allow establishing rules to predict its stability.
i‐DNA is an emerging non‐canonical DNA secondary structure as an anticancer target and as a basic element in the programmable bionanotechnology. A large number of i‐DNA‐prone sequences were tested to disclose how primary sequences determine the i‐DNA stability both in vitro and in cells.
G-quadruplexes (G4s) are four-stranded nucleic acid structures formed by the stacking of G-tetrads. Here we investigated their formation and function during HIV-1 infection. Using bioinformatics and ...biophysics analyses we first searched for evolutionary conserved G4-forming sequences in HIV-1 genome. We identified 10 G4s with conservation rates higher than those of HIV-1 regulatory sequences such as RRE and TAR. We then used porphyrin-based G4-binders to probe the formation of the G4s during infection of human cells by native HIV-1. The G4-binders efficiently inhibited HIV-1 infectivity, which is attributed to the formation of G4 structures during HIV-1 replication. Using a qRT-PCR approach, we showed that the formation of viral G4s occurs during the first 2 h post-infection and their stabilization by the G4-binders prevents initiation of reverse transcription. We also used a G4-RNA pull-down approach, based on a G4-specific biotinylated probe, to allow the direct detection and identification of viral G4-RNA in infected cells. Most of the detected G4-RNAs contain crucial regulatory elements such as the PPT and cPPT sequences as well as the U3 region. Hence, these G4s would function in the early stages of infection when the viral RNA genome is being processed for the reverse transcription step.