{"id":8631,"date":"2021-05-26T07:49:21","date_gmt":"2021-05-26T05:49:21","guid":{"rendered":"https:\/\/www.icpf.cas.cz\/?p=8631"},"modified":"2021-08-02T06:08:50","modified_gmt":"2021-08-02T04:08:50","slug":"cytotoxicity-of-fluorinated-amino-sugars","status":"publish","type":"post","link":"https:\/\/www.icpf.cas.cz\/en\/cytotoxicity-of-fluorinated-amino-sugars\/","title":{"rendered":"Cytotoxicity of fluorinated amino sugars"},"content":{"rendered":"

The research team of Dr. Karban<\/a> has long been focusing on the synthesis of fluorinated carbohydrates and their use as probes in biochemical processes involving carbohydrates. This research also covers recognition of fluorinated carbohydrates by carbohydrate-binding proteins, their use as inhibitors of carbohydrate-involving transformations, and the study of their effects on living cells including cytotoxicity. Cellular cytotoxicity is the subject of the presented publication, which reports the research conducted in cooperation with Masaryk Memorial Cancer Institute in Brno and the University of Chemistry and Technology in Prague. The results were recently published in the journal Organic & Biomolecular Chemistry.<\/em><\/p>\n

The study builds on earlier reports that the introduction of fluorine into amino sugars can result in cytotoxic monosaccharides and that acylated non-fluorinated amino sugar hemiacetals (= derivatives with the unprotected anomeric hydroxyl) are also cytotoxic. A combination of these findings prompted us to prepare a set of acylated fluorinated N<\/em>-acetyl-galactosamine (GalNAc) and -glucosamine (GlcNAc) hemiacetals. These compounds include all three structural features contributing to cytotoxicity: fluorination, acylation at the non-anomeric positions, and an unprotected anomeric hydroxyl. It was found that fluorination increased the cytotoxicity of amino sugar hemiacetals in most cases. This effect was most pronounced for GalNAc fluoro analogues. While the non-fluorinated acetylated GalNAc hemiacetal had very low cytotoxicity (IC50<\/sub> = 414 \u00b5M), multiple fluorination increased the cytotoxicity up to IC50<\/sub> = 20 \u00b5M against the aggressive triple negative breast tumor cells MDA-MB-231.<\/p>\n

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