Synthesis, DNA intercalation and 3D QSAR analysis of cis-2,4,5-trisubstituted-1,3-dithiolanes as a novel class of antitumor agents.

Fei Huang, Ming Zhao, Xiaoyi Zhang, Chao Wang, Keduo Qian, Reen-Yen Kuo, Susan Morris-Natschke, Kuo-Hsiung Lee, Shiqi Peng

Index: Bioorg. Med. Chem. 17 , 6085-95, (2009)

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Abstract

Acid-catalyzed transacetalation of dimethyl (2R,3S)-2,3-dimercapto-succinate and 1,1,3,3-tetramethoxypropane provided cis-4,5-dimethoxycarbonyl-2-(2',2'-dimethoxyethyl)-1,3-dithiolane (2) in 77% yield. The esterification of 2 and l-amino acids provided 18 active antitumor cis-2-carbonylmethyl-4,5- di(l-aminoacyloxymethyl)-1,3-dithiolane analogs (5a-r). Five compounds (5b,c,e,k,p) exhibited remarkable antitumor activity in in vivo assays. The in vivo antitumor potency of 5e,k,p at 44.64micromol/kg was similar to that of cytarabine at 89.28micromol/kg. Several different assay systems, including UV-vis of CT DNA with or without the representative compound 5d and CD spectra of CT DNA with or without representative compounds 5b,f,i demonstrated that DNA is the target of 5a-r. A 3D QSAR model was established to elucidate quantitative relationships between in vivo antitumor activity and analog structures. An equation with r(2) equal to 0.992 was built to predict antitumor activity of unknown cis-2,4,5-trisubstituted-1,3-dithiolane analogs.