Synthesis and biological evaluation of glycoclusters with potential applications in diabetes and Chagas disease

The comprehensive and elaborate functions of carbohydrates in biological systems offer countless possibilities to apply these structures in the development of therapeutic strategies. Because of their structure and function, some glycosidases and glycosyltransferases involved in pathological conditions such as diabetes and Chagas disease are interesting targets in the search for carbohydrate-based enzyme inhibitors. Thus, the knowledge of structural features and the mechanism of action of ?- and ?-glucosidases and trans-sialidases, combined with strong evidences that glycosidases are sensitive to multivalent effect, have supported the design of substrate-based glycoclusters with potential glycosidases inhibitory properties. In addition, glycoclusters based on the structure of the ?-GalNAc-O-Thr glycoamino acid have been planned. Using CuAAC cycloaddition reactions, thirteen of the sixteen tetra- and hexavalent glycoclusters were obtained in good yields, being 8 glucose derivatives, 4 galactose, and the tetravalent sialic acid derivative 7. Ten of these compounds are unpublished. In order to generate structural diversity, the trivalent block 29 was prepared and allowed the coupling of trivalent glucose clusters to iminosugars D-gluco or L-gulo DNJ isomers. The same strategy afforded glycocluster 85, containing galactose units and a sialic acid residue. Kinetic assays in ? and ?-glucosidases with the glucose-derived glycoclusters 1-4, 9-12 and 63-66 showed interesting activity only for the heteroclusters compounds, evidencing the relevance of iminosugars for the interaction with these enzymes. Regarding galactose and/or sialic acid cluster 5-7, 13, 14 and 85, significant inhibition of the TcTS enzyme was achieved by derivative 7 (IC50 450 ?M). In vitro assays for trypanocidal activity and cytotoxicity showed good results for of all these compounds. They appear to block host cell invasion by T. cruzi (reducing infection index in concentrations up to 25?M). (AU)