Faculty of Chemistry, University of Lodz, Tamka 12, 91403 Łódź, Poland.
Institute of Medical Biology, Polish Academy of Sciences, 106 Lodowa St., 93232 Łódź, Poland.
Molecules. 2022 May 30;27(11):3524. doi: 10.3390/molecules27113524.
Starting with fluorinated benzylamines, a series of 2-unsubstituted imidazole -oxides was prepared and subsequently deoxygenated in order to prepare the corresponding imidazoles. The latter were treated with benzyl halides yielding imidazolium salts, which are considered fluorinated analogues of naturally occurring imidazolium alkaloids known as lepidilines A and C. A second series of oxa-lepidiline analogues was obtained by -benzylation of the initially synthetized imidazole -oxides. Both series of imidazolium salts were tested as anticancer and antiviral agents. The obtained results demonstrated that the introduction of a fluorine atom, fluoroalkyl or fluoroalkoxy substituents (F, CF or OCF) amplifies cytotoxic properties, whereas the cytotoxicity of some fluorinated lepidilines is promising in the context of drug discovery. All studied compounds revealed a lack of antiviral activity against the investigated viruses in the nontoxic concentrations.
从氟化苄基胺开始,我们制备了一系列 2-未取代的咪唑氧化物,随后对其进行脱氧以制备相应的咪唑。后者与苄基卤化物反应生成咪唑𬭩盐,被认为是天然存在的咪唑生物碱(称为 Lepidiline A 和 C)的氟化类似物。通过最初合成的咪唑氧化物的 -苄基化,得到了第二个系列的氧杂-Lepidiline 类似物。我们将这两个系列的咪唑𬭩盐作为抗癌和抗病毒药物进行了测试。得到的结果表明,引入氟原子、氟烷基或氟烷氧基取代基(F、CF 或 OCF)可增强细胞毒性,而一些氟化 Lepidiline 的细胞毒性在药物发现方面具有广阔的应用前景。所有研究的化合物在非毒性浓度下对所研究的病毒均无抗病毒活性。