Peer-Reviewed Journal Details
Mandatory Fields
Deane, FM;O'Sullivan, EC;Maguire, AR;Gilbert, J;Sakoff, JA;McCluskey, A;McCarthy, FO
2013
January
Organic & Biomolecular Chemistry
Synthesis and evaluation of novel ellipticines as potential anti-cancer agents
Validated
WOS: 44 ()
Optional Fields
DNA TOPOISOMERASE-I VILSMEIER-HAACK REACTION ELLIPTINIUM ACETATE UNWINDING ASSAY BREAST-CANCER PHASE-II INHIBITION BINDING DERIVATIVES ETHOXIDINE
11
1334
1344
Drugs that inhibit DNA topoisomerase I and DNA topoisomerase II have been widely used in cancer chemotherapy. We report herein the results of a focused medicinal chemistry effort around novel ellipticinium salts which target topoisomerase I and II enzymes with improved solubility. The salts were prepared by reaction of ellipticine with the required alkyl halide and evaluated for DNA intercalation, topoisomerase inhibition and growth inhibition against 12 cancer cell lines. Results from the topoisomerase I relaxation assay indicated that all novel ellipticine derivatives behaved as intercalating agents. At a concentration of 100 mu M, specific topoisomerase I inhibition was not observed. Two of the derivatives under investigation were found to fully inhibit the DNA decatenation reaction at a concentration of 100 mu M, indicative of topoisomerase II inhibition. N-Alkylation of ellipticine was found to enhance the observed growth inhibition across all cell lines and induce growth inhibition comparable to that of Irinotecan (CPT-11; GI(50) 1-18 mu M) and in some cell lines better than Etoposide (VP-16; GI(50) = 0.04-5.2 mu M). 6-Methylellipticine was the most potent growth inhibitory compound assessed (GI(50) = 0.47-0.9 mu M). N-Alkylation of 6-methylellipticine was found to reduce this response with GI(50) values in the range of 1.3-28 mu M.
CAMBRIDGE
1477-0520
10.1039/c2ob27186a
Grant Details