Abstract

Abstract G-quadruplex structures have been shown to form in human telomeres, and the formation of G-quadruplexes can inhibit telomerase, which plays a key role in cancers by stabilizing telomere length and integrity thereby granting limitless replicative potential. The human telomeric G-quadruplex is thus considered to be a potential target for cancer therapeutics. In physiologically relevant potassium solution, human telomeric DNA sequences form two equilibrating hybrid-type G-quadruplex structures, with the hybrid-2 structure being the predominant form in extended sequences. We discovered that epiberberine (EPI), a naturally occurring protoberberine alkaloid, can specifically bind the hybrid-2 human telomeric G-quadruplex and can induce the conversion to the hybrid-2 structure. Using nuclear magnetic resonance (NMR) spectroscopy, we determined the solution structure of the 1:1 complex of EPI and hybrid-2 human telomeric G-quadruplex. Our NMR structure shows EPI bound at the 5’ end of the hybrid-2 telomeric quadruplex with an unexpectedly large drug-induced conformational change in the flanking and loop regions, creating a very well-defined drug binding pocket with extensive capping structures. The EPI molecule and 5’ flanking adenine form an induced quasi-triad plane which is intercalated between the external 5’ tetrad and capping structures. Two layers of new capping structures are formed with the 5’ flanking segment and the second TTA lateral loop to cover the “intercalated quasi-triad”. Notably, the well-defined EPI-induced multi-layer binding-site arrangement is only possible in the hybrid-2 folding topology of telomeric DNA. Our results provide important insights into specific targeting of the physiologically relevant hybrid-2 human telomeric G-quadruplex by a small molecule compound; EPI’s asymmetric crescent-shape and the positioning of its dioxolane moiety, as well as the hybrid-2 folding and the loop and flanking bases in the human telomeric DNA sequence, all contribute toward the specific recognition of EPI. In addition, we have conducted polymerase stop assays, which confirmed that EPI can stabilize the human telomeric G-quadruplex to inhibit polymerase activity. Citation Format: Clement Lin, Guanhui Wu, Yong Shao, Danzhou Yang. The molecular basis for specific recognition of the biologically relevant hybrid-2 type human telomeric G-quadruplex by epiberberine [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 5232. doi:10.1158/1538-7445.AM2017-5232

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