7pne

Publication Abstract from PubMed

Quadruplex-duplex (Q-D) junctions are increasingly considered promising targets for medicinal and technological applications. Here, a Q-D hybrid with a hairpin-type snapback loop coaxially stacked onto the quadruplex 3'-outer tetrad was designed and employed as a target structure for the indoloquinoline ligand SYUIQ-5. NMR spectral analysis demonstrated high-affinity binding of the ligand at the quadruplex-duplex interface with association constants determined by isothermal titration calorimetry of about 10 7 M -1 and large exothermicities Delta H degrees of -14 kcal/mol in a 120 mM K + buffer at 40 degrees C. Determination of the ligand-bound hybrid structure revealed intercalation of SYUIQ-5 between 3'-outer tetrad and the neighboring CG base pair, maximizing pi-pi stacking as well as electrostatic interactions with guanine carbonyl groups in close vicinity to the positively charged protonated quinoline nitrogen of the tetracyclic indoloquinoline. Exhibiting considerable flexibility, the SYUIQ-5 sidechain resides in the duplex minor groove. Based on comparative binding studies with the non-substituted N 5-methylated indoloquinoline cryptolepine, the sidechain is suggested to confer additional affinity and to fix the alignment of the intercalated indoloquinoline aromatic core. However, selectivity for the Q-D junction mostly relies on the geometry and charge distribution of the indoloquinoline ring system. The presented results are expected to provide valuable guidelines for the design of ligands specifically targeting Q-D interfaces.

Indoloquinoline Ligands Favor Intercalation at Quadruplex-Duplex Interfaces.,Vianney YM, Weisz K Chemistry. 2021 Dec 14. doi: 10.1002/chem.202103718. PMID:34905232^[1]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.