Impact of G-Quadruplexes on the Regulation of Genome Integrity, DNA Damage and Repair

Pavlova, Anzhela V.; Кубарева, Е. А.; Monakhova, Mayya V.; Zvereva, Maria I.; Dolinnaya, Nina G.

doi:10.3390/biom11091284

Cited by 37 publications

(36 citation statements)

References 150 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…CD spectra of 19G4 were examined in buffer A containing 100 mM KCl; this K + concentration close to that in human cells (~150 mM KCl) was used in our G4-protein binding experiments and MTase-mediated methylation analysis. The CD spectrum of 19G4 recorded at room temperature revealed a typical parallel G4 fold with a positive peak at 265 nm and a negative one around 240 nm ( Figure 3 A) [ 30 ]. Using CD data recorded at different temperatures, we obtained the 19G4 melting curve ( Supplementary Figure S1 , inset), but due to the high thermal stability of quadruplex structure in the presence of 100 mM KCl, an accurate assessment of the 19G4 melting temperature (T m ) was not possible.…”

Section: Resultsmentioning

confidence: 99%

Impact of G-Quadruplex Structures on Methylation of Model Substrates by DNA Methyltransferase Dnmt3a

Loiko

Сергеев

Genatullina

et al. 2022

IJMS

Self Cite

View full text Add to dashboard Cite

In mammals, de novo methylation of cytosines in DNA CpG sites is performed by DNA methyltransferase Dnmt3a. Changes in the methylation status of CpG islands are critical for gene regulation and for the progression of some cancers. Recently, the potential involvement of DNA G-quadruplexes (G4s) in methylation control has been found. Here, we provide evidence for a link between G4 formation and the function of murine DNA methyltransferase Dnmt3a and its individual domains. As DNA models, we used (i) an isolated G4 formed by oligonucleotide capable of folding into parallel quadruplex and (ii) the same G4 inserted into a double-stranded DNA bearing several CpG sites. Using electrophoretic mobility shift and fluorescence polarization assays, we showed that the Dnmt3a catalytic domain (Dnmt3a-CD), in contrast to regulatory PWWP domain, effectively binds the G4 structure formed in both DNA models. The G4-forming oligonucleotide displaced the DNA substrate from its complex with Dnmt3a-CD, resulting in a dramatic suppression of the enzyme activity. In addition, a direct impact of G4 inserted into the DNA duplex on the methylation of a specific CpG site was revealed. Possible mechanisms of G4-mediated epigenetic regulation may include Dnmt3a sequestration at G4 and/or disruption of Dnmt3a oligomerization on the DNA surface.

show abstract

Section: Resultsmentioning

confidence: 99%

Impact of G-Quadruplex Structures on Methylation of Model Substrates by DNA Methyltransferase Dnmt3a

Loiko

Сергеев

Genatullina

et al. 2022

IJMS

Self Cite

View full text Add to dashboard Cite

show abstract

“…The interplay between G4 structures and DNA repair machinery, the activity of which is coupled to genomic stability, has become the subject of intense research [ 23 ]. Here, we studied the functional responses of the DNA mismatch repair systems of two bacterial species to the tandem G4 structure formed by the noncoding strand of the hTERT promoter and its altered variants bearing point G>A substitutions (at positions 228, 250, 242/243, which are clustered in the middle of G4 motif) associated with cancer-causing driver mutations.…”

Section: Discussionmentioning

confidence: 99%

“…Indeed, G4s were shown to have diverse effects on the functioning of the major DNA repair systems: base excision repair (BER) and nucleotide excision repair (NER). While these noncanonical DNA forms stimulate the NER-mediated repair of UV-induced lesions such as pyrimidine dimers, they demonstrate opposite effects on the BER machinery by suppressing the removal of oxidative base lesions from G4 motifs [ 23 , 24 ]. Some of these data were obtained for oncogene promoters such as VEGF and c-Myc , which form only one intramolecular G4.…”

Section: Introductionmentioning

confidence: 99%

“…MutL then activates downstream repair, which involves a single-stranded break (nick) in the newly replicated strand, either by the MutH endonuclease in the methyl-directed MMR in E. coli, or by MutL itself in the methyl-independent MMR used by eukaryotes and most bacteria ( Figure 2 ). Escherichia coli MutS (ecMutS), Rhodobacter sphaeroides MutS and human MutSα were reported to bind to various single G4 DNA with an affinity greater than that for the G/T mismatch, but such preferential binding does not correlate with DNA mismatch repair activity; moreover, the modes of MutS binding to a G4 and to a mismatched base pair appear to be different [ 23 , 25 , 26 , 27 ]. We recently showed that MutL from E. coli (ecMutL) binds to a single parallel G4 formed by the d(GGGT) 4 sequence with a higher affinity than to double-stranded DNA.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

G-Quadruplex Formed by the Promoter Region of the hTERT Gene: Structure-Driven Effects on DNA Mismatch Repair Functions

et al. 2022

Self Cite

View full text Add to dashboard Cite

G-quadruplexes (G4s) are a unique class of noncanonical DNAs that play a key role in cellular processes and neoplastic transformation. Herein, we focused on the promoter region of human TERT oncogene, whose product is responsible for the immortality of cancer cells. It has been shown by chemical probing and spectroscopic methods that synthetic 96-nt DNAs modeling the wild-type G-rich strand of the hTERT promoter and its variants with G>A point substitutions corresponding to somatic driver mutations fold into three stacked parallel G4s with sites of local G4 destabilization caused by G>A substitutions in the G4 motif. These models were used to elucidate how the hTERT multiG4 affects the binding affinity and functional responses of two key proteins, MutS and MutL, involved in the initial stage of DNA mismatch repair (MMR) in Escherichiacoli and Neisseriagonorrhoeae with different MMR mechanisms. We have shown for the first time that (i) point substitutions do not affect the effective binding of these proteins to the hTERT G4 structure, and (ii) the endonuclease activity of MutL from N. gonorrhoeae is significantly suppressed by the stable G4 scaffold. It is likely that some of the genomic instability associated with G4 may be related to the blockage of human intrinsic methyl-independent MMR attempting to operate near G4 structures.

show abstract

“…In the cellular environments, the formation of the G4 structures in promoter regions occurs in competition with the DNA double helix and is regulated by various oppositely directed factors: chromatin opening, negative DNA supercoiling, different transcription enhancers and inhibitors, G4-stabilizing and destabilizing cellular proteins, exclusion of the C-rich strand from the B-DNA–G4 equilibrium due to the formation of a stable i-motif or co-transcriptional R-loop [ 55 ]. We hypothesize that the selective ligand binding to G4s may represent an additional factor contributing to G4 sequestration and prolongation of their lifetime in complex cellular environments.…”

Section: Discussionmentioning

confidence: 99%

Effects of G-Quadruplex-Binding Plant Secondary Metabolites on c-MYC Expression

Zenkov

Кирсанов

Ogloblina

et al. 2022

IJMS

Self Cite

View full text Add to dashboard Cite

Guanine-rich DNA sequences tending to adopt noncanonical G-quadruplex (G4) structures are over-represented in promoter regions of oncogenes. Ligands recognizing G4 were shown to stabilize these DNA structures and drive their formation regulating expression of corresponding genes. We studied the interaction of several plant secondary metabolites (PSMs) with G4s and their effects on gene expression in a cellular context. The binding of PSMs with G4s formed by the sequences of well-studied oncogene promoters and telomeric repeats was evaluated using a fluorescent indicator displacement assay. c-MYC G4 folding topology and thermal stability, as well as the PMS influence on these parameters, were demonstrated by UV-spectroscopy and circular dichroism. The effects of promising PSMs on c-MYC expression were assessed using luciferase reporter assay and qPR-PCR in cancer and immortalized cultured cells. The ability of PMS to multi-targeting cell signaling pathways was analyzed by the pathway-focused gene expression profiling with qRT-PCR. The multi-target activity of a number of PSMs was demonstrated by their interaction with a set of G4s mimicking those formed in the human genome. We have shown a direct G4-mediated down regulation of c-MYC expression by sanguinarine, quercetin, kaempferol, and thymoquinone; these effects being modulated by PSM’s indirect influence via cell signaling pathways.

show abstract

Impact of G-Quadruplexes on the Regulation of Genome Integrity, DNA Damage and Repair

Cited by 37 publications

References 150 publications

Impact of G-Quadruplex Structures on Methylation of Model Substrates by DNA Methyltransferase Dnmt3a

Impact of G-Quadruplex Structures on Methylation of Model Substrates by DNA Methyltransferase Dnmt3a

G-Quadruplex Formed by the Promoter Region of the hTERT Gene: Structure-Driven Effects on DNA Mismatch Repair Functions

Effects of G-Quadruplex-Binding Plant Secondary Metabolites on c-MYC Expression

Contact Info

Product

Resources

About