Ferrocenylalkyl azoles: bioactivity,synthesis, structure |
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| Authors: | Lubov' V. Snegur Yury S. Nekrasov Nataliya S. Sergeeva Zhanna V. Zhilina Vera V Gumenyuk Zoya A. Starikova Alexander A. Simenel Nataliya B. Morozova Irina K. Sviridova Valery N. Babin |
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| Affiliation: | 1. A. N. Nesmeyanov Institute of OrganoElement Compounds, Russian Academy of Sciences, 28 Vavilov St., 119991 Moscow, Russian Federation;2. P. A. Herzen Research Institute of Oncology, 3 Botkinskiy lane, 125284 Moscow, Russian Federation |
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| Abstract: | The toxicity of ferrocenylethyl benzotriazole ( 1 ) and other ferrocene compounds including ferrocenylmethyl benzimidazoles ( 4,5,6,11 ), ferricenium salts ( 3,9,10 ) and ferrocenylmethyl adenine ( 7 ), was studied. All ferrocene complexes under investigation showed low or medium toxicities. On the basis of an earlier model of chemical carcinogenesis, the antitumor activity of ferrocenylalkyl azoles 1, 8 and ferricenium salts 9, 10 was studied in vivo in the so‐called sub‐capsular test on human tumors. This effectiveness was compared with that of cisplatin. A series of ferrocenylalkyl azoles were synthesized by interacting azoles either with α‐hydroxyalkyl ferrocenes FcC(OH)R1R2 in organic solvent in the presence of aqueous HBF4 in quantitative yields or with trimethyl(aminomethyl)ferrocene iodide in an aqueous‐basic medium in good yields. The X‐ray determinations of molecular and crystal structures of α‐(1‐benzotriazolyl)ethylferrocene ( 1 ) and α‐(1‐naphthatriazolyl)ethylferrocene ( 12 ) were performed. Copyright © 2008 John Wiley & Sons, Ltd. |
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| Keywords: | ferrocene derivatives ferrocenylalkyl azoles α ‐ferrocenylalkylation benzimidazole benzotriazole X‐ray crystal structure toxicity in vivo antitumor experiments a model of chemical carcinogenesis |
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