4.5 Article

Influence of the Stereoisomeric Position of the Reactive Acetate Groups of the Benzo[b]Acronycine derivative S23906-1 on Its DNA Alkylation, Helix-Opening, Cytotoxic, and Antitumor Activities

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MOLECULAR PHARMACOLOGY
卷 76, 期 6, 页码 1172-1185

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AMER SOC PHARMACOLOGY EXPERIMENTAL THERAPEUTICS
DOI: 10.1124/mol.109.057554

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  1. Institut pour la Recherche sur le Cancer de Lille (IRCL)
  2. Ligue Nationale Contre le Cancer, Comite du Nord

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S23906-1 is a benzo[b]acronycine derivative acting as a DNA-alkylating agent through covalent bonding to the exocyclic amino group of guanines and subsequent local opening of the DNA helix. This compound was selected for phase I clinical trials based on its efficient antitumor activity in experimental models and its unique mode of action. S23906-1 is the racemate of cis-1,2-diacetoxy-6-methoxy-3,3,14-trimethyl-1,2,3,14-tetrahydro-7H-benzo[b]pyrano[3,2-h]acridin-7-one. Here, we evaluated the cytotoxic and antitumor activities of the two pure cisenantiomers and investigated the mechanism of action of both cis- and trans-racemates and their enantiomers in terms of DNA alkylation potency and locally drug-induced DNA helix opening process. Reaction with glutathione, as a detoxification process, was also studied. The trans-compounds, both as racemate or separated enantiomers, were found less potent than the corresponding cis-derivatives. Among the cis-enantiomers, the most efficient one regarding DNA alkylation bears the acetate on the reactive C1 position in the R configuration, both on purified DNA and genomic DNA extracted from cell cultures. By contrast, the most cytotoxic and tumor-active enantiomer bears the C1-acetate in the S configuration. Distinct cellular DNA-alkylation levels or covalent bonding to glutathione could not explain the differences. However, we showed that the S and R orientations of the acetate on C1 asymmetric carbon lead to different local opening of the DNA, as visualized using nuclease S1 mapping. These different interactions could lead to modulated DNA-repair, protein/DNA interaction, and apoptosis processes.

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