Abstract
The folding of the guanine repetitive region in the telomere unit into G-quadruplex (G4) by drugs has been suggested as an alternative approach for cancer therapy. Hydroxychloroquine (HCQ) and chloroquine (CQ) are two important drugs in the trial stage for cancer. Both drugs can induce the folding of telomere-guanine-rich sequences into G4 even in the absence of salt. However, the guanine repetitive telomeric sequences are always flanked by other nucleobases at both the terminal (5' or 3') that can affect the drug-induced folding pathways and stability of the G4 significantly. Hence, in this study, the HCQ and CQ drug-induced folding of the guanine repetitive telomeric sequences into G4 and its stability by varying the chemical nature, number, and positions of the flanking nucleobases has been explored using several biophysical techniques and docking studies. It has been found that the drug-induced folding of telomere with single flanking nucleobases is similar to that without flanking nucleobases irrespective of the chemical nature and position of the flanking nucleobase. However, the propensity of the folding and the stability of the telomeric G4 induced by drugs decrease significantly with the increase of the flanking nucleobases more than one of any chemical nature and position. The data suggest that the number of flanking nucleobases rather than their chemical nature and location is a critical factor in the folding of the telomere into G4 induced by both drugs. Further, it has been observed that both drugs mainly interact with the G-tract and thymine of the loop region rather than the flanking nucleobases of the telomeric sequences without or with one flanking nucleobase. In contrast, the flanking nucleobases also participate in the interaction with the HCQ and CQ along with the core guanine repeat telomeric unit in the case of the telomeric sequences with more than one flanking nucleobases. The participation of the flanking nucleobases in the interaction with the HCQ and CQ affects the hydrogen bonding of the positively charged side chain of drugs with G quartet and loop nucleobases of telomere along with the with π···π and C-H···π weak interactions between the quinoline part of the drugs with the core telomeric guanine repeat unit which affects the folding pattern of the telomere sequences with more than one flanking nucleobases into G4.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call