Sára Balla scite author profile

A convenient route to Se-S-glycoside derivatives was developed using glycosyl isoselenuronium salts as glycosylselenenyl transfer reagents toward thiols. Aliphatic and aromatic thiols were found to react in the presence of N,N-diisopropylethylamine as a base and furnished alkyl-or aryl glycosylselenenylsulfide derivatives. S-glycosylselenenyl-cysteines were obtained similarly via reactions with O,N-protected cysteine. Reactions with monosaccharide thiols provided dis-accharide mimics featuring Se-S-interglycosidic bonds. Further disaccharide mimics with Se-Se interglycosidic linkage were obtained from the starting isoselenuronium salts via reactions with protected monosaccharide derivatives bearing selenol groups in 6-or 4-position. The novel glycomimetics are expected to open new perspectives in biological activities and/or mechanistic studies due, i.a., to the rather uncommon Se-S-or Se-Se bonds incorporated into a carbohydrate framework.[a] Dr.

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Bivalent O -glycoside mimetics with S /disulfide/ Se substitutions and aromatic core: Synthesis, molecular modeling and inhibitory activity on biomedically relevant lectins in assays of increasing physiological relevance

Kaltner

Szabó

Fehér

et al. 2017

Bioorganic & Medicinal Chemistry

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The emerging significance of recognition of cellular glycans by lectins for diverse aspects of pathophysiology is a strong incentive for considering development of bioactive and non-hydrolyzable glycoside derivatives, for example by introducing S/Se atoms and the disulfide group instead of oxygen into the glycosidic linkage. We report the synthesis of 12 bivalent thio-, disulfido- and selenoglycosides attached to benzene/naphthalene cores. They present galactose, for blocking a plant toxin, or lactose, the canonical ligand of adhesion/growth-regulatory galectins. Modeling reveals unrestrained flexibility and inter-headgroup distances too small to bridge two sites in the same lectin. Inhibitory activity was first detected by solid-phase assays using a surface-presented glycoprotein, with relative activity enhancements per sugar unit relative to free cognate sugar up to nearly 10fold. Inhibitory activity was also seen on lectin binding to surfaces of human carcinoma cells. In order to proceed to characterize this capacity in the tissue context monitoring of lectin binding in the presence of inhibitors was extended to sections of three types of murine organs as models. This procedure proved to be well-suited to determine relative activity levels of the glycocompounds to block binding of the toxin and different human galectins to natural glycoconjugates at different sites in sections. The results on most effective inhibition by two naphthalene-based disulfides and a selenide raise the perspective for broad applicability of the histochemical assay in testing glycoclusters that target biomedically relevant lectins.

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77Se-Enriched Selenoglycoside Enables Significant Enhancement in NMR Spectroscopic Monitoring of Glycan–Protein Interactions

et al. 2022

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Detailed investigation of ligand–protein interactions is essential for better understanding of biological processes at the molecular level. Among these binding interactions, the recognition of glycans by lectins is of particular importance in several diseases, such as cancer; therefore, inhibition of glycan-lectin/galectin interactions represents a promising perspective towards developing therapeutics controlling cancer development. The recent introduction of 77Se NMR spectroscopy for monitoring the binding of a selenoglycoside to galectins prompted interest to optimize the sensitivity by increasing the 77Se content from the natural 7.63% abundance to 99%. Here, we report a convenient synthesis of 77Se-enriched selenodigalactoside (SeDG), which is a potent ligand of the medically relevant human galectin-3 protein, and proof of the expected sensitivity gain in 2D 1H, 77Se correlation NMR experiments. Our work opens perspectives for adding isotopically enriched selenoglycans for rapid monitoring of lectin-binding of selenated as well as non-selenated ligands and for ligand screening in competition experiments.

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Sára Balla

Exploring the Syntheses of Novel Glycomimetics. Carbohydrate Derivatives with Se‐S‐ or Se‐Se‐ Glycosidic Linkages

Bivalent O -glycoside mimetics with S /disulfide/ Se substitutions and aromatic core: Synthesis, molecular modeling and inhibitory activity on biomedically relevant lectins in assays of increasing physiological relevance

77Se-Enriched Selenoglycoside Enables Significant Enhancement in NMR Spectroscopic Monitoring of Glycan–Protein Interactions

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