Combined computational–experimental analyses explain and quantify the spermine-vectorized F14512’s boosted potency as a topoII poison. We found that an optimized polyamine moiety boosts drug binding to the topoII/DNA cleavage complex, rather than to the DNA alone. These results provide new structural bases and key reference data for designing new human topoII poisons.
Palermo, G., Minniti, E., Greco, M., Riccardi, L., Simoni, E., Convertino, M., et al. (2015). An optimized polyamine moiety boosts the potency of human type II topoisomerase poisons as quantified by comparative analysis centered on the clinical candidate F14512. CHEMICAL COMMUNICATIONS, 51(76), 14310-14313 [10.1039/c5cc05065k].
An optimized polyamine moiety boosts the potency of human type II topoisomerase poisons as quantified by comparative analysis centered on the clinical candidate F14512
MINNITI, ELIROSA;SIMONI, ELENA;ROSINI, MICHELA;MINARINI, ANNA;
2015
Abstract
Combined computational–experimental analyses explain and quantify the spermine-vectorized F14512’s boosted potency as a topoII poison. We found that an optimized polyamine moiety boosts drug binding to the topoII/DNA cleavage complex, rather than to the DNA alone. These results provide new structural bases and key reference data for designing new human topoII poisons.File | Dimensione | Formato | |
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84. Chem. Comm. 2015.pdf
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