In a previous study we have demonstrated that two neighboring G-quadruplexes, hras-1 and hras-2, located immediately upstream of the major transcription start site of HRAS, bind MAZ, a nuclear factor that activates transcription (Cogoi, S.; et al. Nucl. Acid Res. 2014, 42, 8379). For the present study we have designed G4 oligonucleotides with anthraquinone insertions and locked nucleic acids (LNA) modifications mimicking quadruplex hras-1. Luciferase, qRT-PCR, and Western blot data demonstrate that these constructs efficiently down regulate HRAS in T24 bladder cancer cells. The inhibitory efficiency of the G4 oligonucleotides correlates with their nuclease resistance in the cell environment. By chromatin immunoprecipitation we show that the association of MAZ to the HRAS promoter is strongly attenuated by the designed G4 oligonucleotides, thus suggesting that these constructs behave with a decoy mechanism.
Nucleic Acid Targeted Therapy: G4 Oligonucleotides Downregulate HRAS in Bladder Cancer Cells through a Decoy Mechanism
MIGLIETTA, Giulia;XODO, Luigi
2015-01-01
Abstract
In a previous study we have demonstrated that two neighboring G-quadruplexes, hras-1 and hras-2, located immediately upstream of the major transcription start site of HRAS, bind MAZ, a nuclear factor that activates transcription (Cogoi, S.; et al. Nucl. Acid Res. 2014, 42, 8379). For the present study we have designed G4 oligonucleotides with anthraquinone insertions and locked nucleic acids (LNA) modifications mimicking quadruplex hras-1. Luciferase, qRT-PCR, and Western blot data demonstrate that these constructs efficiently down regulate HRAS in T24 bladder cancer cells. The inhibitory efficiency of the G4 oligonucleotides correlates with their nuclease resistance in the cell environment. By chromatin immunoprecipitation we show that the association of MAZ to the HRAS promoter is strongly attenuated by the designed G4 oligonucleotides, thus suggesting that these constructs behave with a decoy mechanism.File | Dimensione | Formato | |
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