Structure-activity relationships of cyclic enediynes related to dynemicin A—I. Synthesis and antitumor activity of 9-acetoxy enediynes equipped with aryl carbamate moieties

Abstract

A series of the 9-acetoxy enediyne compounds, 6a-k which were simplified from natural dynemicin A, and designed to be equipped with various aryl carbamate moieties, was synthesized and evaluated for DNA-cleaving ability, in vitro cytotoxicity, and in vivo antitumor activity. As a result of this study of the structure-activity relationships (SAR) with regard to the R 1 substituent, both compounds 6a and 6f with the phenyl carbamate and 4-chlorophenyl carbamate moiety, respectively, were found to exhibit significant activity ( T C > 200% ) against murine P388 leukemia in mice, in spite of having IC 50 values in the micromolar range. In particular, compound 6f showed the most potent activity with a maximum T C of 256% at a daily dosage of 4.0 mg/kg for four days. Furthermore, both compounds 6a and 6f were effective against Meth A sarcoma in mice and inhibited 71 and 77% of the tumor growth at 2.0 and 3.0 mg/kg dosages, respectively. In contrast to 6f, compound 6i possessing the 2-nitrophenyl carbamate moiety showed only a slight in vivo activity, while it had about one order of magnitude higher in vitro cytotoxicity than 6f. For the stereochemistry-activity relationships at the C9 position, the ( 9R ∗)- isomers of 6c, 6g, and 6j were found to show higher in vitro and in vivo potencies than the corresponding (9S ∗)- isomers .