Dipartimento di Chimica, Università di Firenze, Polo Scientifico e Tecnologico, 50019 Sesto Fiorentino, Firenze, Italy.
Chemistry. 2012 Apr 16;18(16):5064-72. doi: 10.1002/chem.201103318. Epub 2012 Mar 5.
The biological activity of a set of structurally related aminopyrrolic synthetic receptors for monosaccharides has been tested versus yeast and yeast-like microorganisms and compared to their binding affinity toward mannosides. Antibiotic activity comparable to that of well-known polyene (amphotericin B) or azole (ketoconazole) drugs has been found for some members of the family, along with a general correlation with binding abilities. A systematic structure-activity-affinity investigation shed light on the structural and functional requirements necessary for antibiotic activity and identified the tripodal compound 1 as the most potent compound of the set. Together with toxicity tests and inhibitor localization experiments performed through fluorescence microscopy, these studies led to the characterization of a new class of carbohydrate binding agents possessing antibiotic activity, in which pyrrolic groups precisely structured on a tripodal architecture appear to be responsible for permeability through the cell wall of pathogens, as well as for antibiotic activity inside the cytoplasm.
一组结构相关的氨基吡咯类单糖合成受体的生物活性已针对酵母和酵母样微生物进行了测试,并与它们对甘露糖苷的结合亲和力进行了比较。该家族的一些成员具有与知名多烯(两性霉素 B)或唑类(酮康唑)药物相当的抗生素活性,并且与结合能力呈普遍相关性。系统的结构-活性-亲和力研究阐明了抗生素活性所必需的结构和功能要求,并确定三足化合物 1 为该组中最有效的化合物。结合荧光显微镜进行的毒性测试和抑制剂定位实验,这些研究导致了具有抗生素活性的新型碳水化合物结合剂的表征,其中在三足架构上精确构建的吡咯基团似乎负责穿过病原体细胞壁的渗透性,以及细胞质内的抗生素活性。
