- 作者: Chien-Chung Chenga, Wen-Li Leeb, Jyan-Gwo Sub and Chen-Lun Liub
- 中文摘要:
The use of ruthenium complexes in antitumor therapy was launched two decades ago. In view of their low toxicity and good selectivity for solid tumor metastasis, ruthenium complexes have great potential as alternative drugs to cisplatin in cancer chemotherapy. A series of monochloro ruthenium complexes, Ru(terpy) (NN)Cl+ (NN, bidentate nitrogen ligand), containing different electron-donating groups were prepared. The reactivity towards the formation of Ru-DNA adduct were revealed by gel mobility shift assay. Their DNA binding sites of Ru(terpy)(tmephen)Cl+ were located predominantly at the purine residues I.e., guanine and adenine, by terminating DNA elongation in vitro using PCR and primer extension techniques. Surprisingly, the ability of Ru(terpy)(tmephen)Cl+ to inhibit cell growth was found to be approximately two times better than that of a known cross-linking agent, Ru(bpy)2Cl2. Therefore, the increase in liability of the chloro ligand was demonstrated to improve the reactivity of these ruthenium complexes towards the covalent bond formation in Ru-DNA adducts and result also in a significant inhibition of cell growth. Based on our results, these ruthenium complexes modified with electron-rich groups provide new consideration in the tune of ruthenium-based drugs in cancer chemotherapy.
The use of ruthenium complexes in antitumor therapy was launched two decades ago. In view of their low toxicity and good selectivity for solid tumor metastasis, ruthenium complexes have great potential as alternative drugs to cisplatin in cancer chemotherapy. A series of monochloro ruthenium complexes, Ru(terpy) (NN)Cl+ (NN, bidentate nitrogen ligand), containing different electron-donating groups were prepared. The reactivity towards the formation of Ru-DNA adduct were revealed by gel mobility shift assay. Their DNA binding sites of Ru(terpy)(tmephen)Cl+ were located predominantly at the purine residues I.e., guanine and adenine, by terminating DNA elongation in vitro using PCR and primer extension techniques. Surprisingly, the ability of Ru(terpy)(tmephen)Cl+ to inhibit cell growth was found to be approximately two times better than that of a known cross-linking agent, Ru(bpy)2Cl2. Therefore, the increase in liability of the chloro ligand was demonstrated to improve the reactivity of these ruthenium complexes towards the covalent bond formation in Ru-DNA adducts and result also in a significant inhibition of cell growth. Based on our results, these ruthenium complexes modified with electron-rich groups provide new consideration in the tune of ruthenium-based drugs in cancer chemotherapy.
- 英文摘要: --
- 中文關鍵字: --
- 英文關鍵字: --