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Nucleobase Specific Understanding about the Interaction of Antimalarial Drug Chloroquine with Duplex DNA.

Asim BisoiSunipa SarkarTithi LaiPrashant Chandra Singh
Published in: The journal of physical chemistry. B (2023)
Antimalarial action of a drug is closely associated with the interaction with the parasite's DNA. Hence, in this study, the interaction of an important antimalarial drug, chloroquine (CLQ), has been investigated with six different sequences of DNA having pure adenine (A)-thymine (T) and pure cytosine (C)-guanine (G) as well as mixed nucleobases to achieve the nucleobase level of information in the binding of antimalarial drug with DNA along with binding induced stabilization/destabilization of DNA using different spectroscopic methods and molecular dynamics simulation technique. Further, the experiments have been also performed with 4-amino-7-chloroquinoline (7CLQ), an analogue of CLQ, to understand the role of the quinoline ring and side chain of CLQ in the binding with different sequences of DNA. The binding efficiency of CLQ with any sequence of DNA is higher than 7CLQ suggesting that the presence of charge on CLQ plays a prominent role in DNA binding. The data suggest that the binding of drug as well as induced stabilization of DNA depends significantly on the nature as well as the arrangement of the nucleobases. In general, the binding of CLQ with pure CG DNA is higher than with pure AT DNA; moreover, it prefers an alternate order of CG/AT than continual nucleobases in duplex DNA. CLQ predominately accommodates in the minor groove of AT DNA and prefers to form hydrogen bond mostly with the adenine nucleobase. In contrast to AT DNA, CLQ intrudes into the both major and minor grooves, but it is primarily accommodated into the major groove of CG DNA. CLQ forms a hydrogen bond mainly with guanine in the major groove and cytosine in the minor groove of CG DNA which enhances the binding of CLQ compared to AT DNA as well as induces higher stabilization in CG DNA. The molecular level information obtained about the functional group responsible for the interaction of CLQ as well as the role of chemical nature of nucleobases along with its ordering on the binding of CLQ with DNA may be useful in comprehensive understanding of its action mechanism.
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