An In Silico Study of the Differential Effect of Oxidation on Two Biologically Relevant G-Quadruplexes: Possible Implications in Oncogene Expression

William J D Stebbeds,Joseph Lunec,Lee D Larcombe

doi:10.1371/journal.pone.0043735

William J D Stebbeds, Joseph Lunec + Show 1 more

Open Access

https://doi.org/10.1371/journal.pone.0043735

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Journal: PloS one	Publication Date: Aug 22, 2012
Citations: 13	License type: CC BY 4.0

Affiliation: Cranfield University

Abstract

G-quadruplex structures, formed from guanine rich sequences, have previously been shown to be involved in various physiological processes including cancer-related gene expression. Furthermore, G-quadruplexes have been found in several oncogene promoter regions, and have been shown to play a role in the regulation of gene expression. The mutagenic properties of oxidative stress on DNA have been widely studied, as has the association with carcinogenesis. Guanine is the most susceptible nucleotide to oxidation, and as such, G-rich sequences that form G-quadruplexes can be viewed as potential “hot-spots” for DNA oxidation. We propose that oxidation may destabilise the G-quadruplex structure, leading to its unfolding into the duplex structure, affecting gene expression. This would imply a possible mechanism by which oxidation may impact on oncogene expression. This work investigates the effect of oxidation on two biologically relevant G-quadruplex structures through 500 ns molecular dynamics simulations on those found in the promoter regions of the c-Kit and c-Myc oncogenes. The results show oxidation having a detrimental effect on stability of the structure, substantially destabilising the c-Kit quadruplex, and with a more attenuated effect on the c-Myc quadruplex. Results are suggestive of a novel route for oxidation-mediated oncogenesis and may have wider implications for genome stability.

Highlights

G-quadruplexes (G4-DNA) are a class of secondary structures formed from guanine rich sequences that have been implicated in telomere maintenance, genome stability and gene expression [1,2,3]
The G-quadruplex structure found in the nuclease hypersensitive element (NHE) III region [12] upstream of the gene has been widely linked to regulation of c-Myc expression
That oxidation may decrease the stability of intramolecular G-quadruplexes found in upstream promoter regions; suggesting a possible mechanism by which oxidation may impact on oncogene expression

Summary

Introduction

G-quadruplexes (G4-DNA) are a class of secondary structures formed from guanine rich sequences that have been implicated in telomere maintenance, genome stability and gene (including oncogene) expression [1,2,3]. Additional in vitro studies of G-quadruplexes have revealed stability is dependent on factors such as loop length [24,25], sequence [25] and number of tetrads [26], and so it is likely that the varied stability observed for different G4-DNA motifs may affect the extent to which these structures are susceptible to chemical modification, such as oxidation.

Results

Conclusion