Molecular Recognition of Parallel DNA Quadruplex d(TTAGGGT)4 by Mitoxantrone: Binding with 1:2 Stoichiometry Leading to Thermal Stabilization and Telomerase Inhibition

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• 作者：Sweta Tripathi ; Tarikere Palakshan Pradeep and Dr. Ritu Barthwal
• 关键词：circular dichroism ; G-quadruplexes ; mitoxantrone ; NMR spectroscopy ; telomerase inhibition ; thermal stabilization
• 刊名：ChemBioChem
• 出版年：2016
• 出版时间：April 1, 2016
• 年：2016
• 卷：17
• 期：7
• 页码：554-560
• 全文大小：1306K
• ISSN：1439-7633

文摘

The interaction of the anthraquinone derivative mitoxantrone, a semisynthetic anti-cancer drug with two non-planar side chains, with heptamer G-quadruplex d(TTAGGGT)₄, which contains the human telomere DNA sequence, was evaluated by differential scanning calorimetry, fluorescence Job plotting, absorption, and NMR and CD spectroscopy. Binding led to thermal stabilization of DNA (ΔT_m=13–20 °C). The spectra revealed that two mitoxantrone molecules bind externally at two sites of the DNA quadruplex as monomers, by partial insertion of the chromophore and side-chain interaction at the grooves. The inhibition of telomerase (IC₅₀=2 μm), as determined by a TRAP assay, can be attributed to thermal stabilization of the DNA quadruplex because of the interactions with mitoxantrone. The studies revealed highly specific molecular recognition between a ligand and a parallel-stranded G-quadruplex; this might serve as a platform for the rational design of new drugs.