Guanine rich DNA sequences are widespread throughout the genome and they are prone to form G-quadruplex structures both in-vitro and in-vivo. Owing to their regulatory roles in important biological reactions, DNA G-quadruplexes are the prime target for the development of anti-cancer drug molecules. In the present study, we have investigated the interaction of curcumin with anti-parallel chair and basket type DNA G-quadruplexes formed by thrombin binding aptamer (TBA) and human telomeric repeat (HTG) sequences, respectively. The results obtained from spectroscopic techniques demonstrated that curcumin interacts with both the DNA G-quadruplexes through external binding mode and the estimated apparent binding constant value (Kb) was slightly higher for HTG (Kb = (4.38 ± 0.09) × 105 M−1) than that estimated for TBA (Kb = (0.62 ± 0.02) × 105 M−1) DNA G-quadruplex structures. It was also revealed that upon binding with curcumin, TBA and HTG DNA G-quadruplexes were slightly stabilized and destabilized, respectively. Circular dichroism study revealed that upon binding with curcumin the global structure of both the DNA G-quadruplexes was unaltered, whereas the local structure of HTG DNA G-quaruplex was slightly altered. Conjointly all the aforementioned spectroscopic methods emphasize that curcumin has differential interaction with anti-parallel DNA G-quadruplex structures depending on their loop orientation.
Read full abstract