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6. Affinity capillary electrophoresis for the assessment of binding affinity of carbohydrate-based cholera toxin inhibitors

Author

Aizpurua-Olaizola, Oier, Sastre Torano, Javier, Pukin, Aliaksei, Fu, Ou, Boons, Geert Jan, de Jong, Gerhardus J, Pieters, Roland J, Afd Chemical Biology and Drug Discovery, Sub Algemeen Scheikunde, Chemical Biology and Drug Discovery, Afd Chemical Biology and Drug Discovery, Sub Algemeen Scheikunde, and Chemical Biology and Drug Discovery

Subjects
0301 basic medicine, Cholera Toxin, Clinical Biochemistry, Oligosaccharides, Context (language use), G(M1) Ganglioside, medicine.disease_cause, 01 natural sciences, Biochemistry, Protein-carbohydrateinteraction, Analytical Chemistry, 03 medical and health sciences, Capillary electrophoresis, medicine, Affinity capillary electrophoresis, Protein–carbohydrate interactions, Cholera toxin inhibitors, Secretory diarrhea, Enzyme Inhibitors, Ganglioside, Formamides, Glycobiology, Chemistry, 010401 analytical chemistry, Cholera toxin, Electrophoresis, Capillary, Hemagglutinin, 0104 chemical sciences, Dissociation constant, 030104 developmental biology, Protein Binding
Abstract

Developing tools for the study of protein carbohydrate interactions is an important goal in glycobiology. Cholera toxin inhibition is an interesting target in this context, as its inhibition may help the fight against cholera. For the study of novel ligands an affinity capillary electrophoresis (ACE) method was optimised and applied. The method uses unlabeled cholera toxin B-subunit (CTB) and unlabeled carbohydrate ligands based on ganglioside GM1-oligosaccharides (GM1os). In an optimized method at pH 4, adsorption of the protein to the capillary walls was prevented by a polybrene-dextran sulfate-polybrene (PB-DS-PB) coating. Different concentrations of the ligands were added to the background electrolyte. CTB binding was observed by a mobility shift that could be used for dissociation constant (Kd) determination. The Kd values of two GM1 derivatives differed by close to an order of magnitude (600 ± 20 nM and 90 ± 50 nM) which was in good agreement with the differences in their reported nanomolar IC50 values of an ELISA-type assay. Moreover, the selectivity of GM1os towards CTB was demonstrated using Influenza hemagglutinin (H5) as a binding competitor. The developed method can be an important platform for preclinical development of drugs targeting pathogen-induced secretory diarrhea. This article is protected by copyright. All rights reserved

Published
2017
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9. Functional Characterization of Cholera Toxin Inhibitors Using Human Intestinal Organoids

Author

Zomer-Van Ommen, Domenique D., Pukin, Aliaksei V., Fu, Ou, Quarles Van Ufford, Linda H C, Janssens, Hettie M., Beekman, Jeffrey M., Pieters, Roland J., Medicinal Chemistry and Chemical Biology, Sub Medicinal Chemistry & Chemical biol., Medicinal Chemistry and Chemical Biology, Sub Medicinal Chemistry & Chemical biol., and Pediatrics

Subjects
0301 basic medicine, Drug, Cholera Toxin, media_common.quotation_subject, Pharmacology, medicine.disease_cause, 01 natural sciences, Structure-Activity Relationship, 03 medical and health sciences, SDG 3 - Good Health and Well-being, Drug Discovery, Organoid, medicine, Journal Article, Humans, Structure–activity relationship, Potency, Animal testing, media_common, Dose-Response Relationship, Drug, Molecular Structure, 010405 organic chemistry, Drug discovery, Chemistry, Cholera toxin, Molecular medicine, 0104 chemical sciences, Intestines, Organoids, 030104 developmental biology, Molecular Medicine, Antitoxins
Abstract

Preclinical drug testing in primary human cell models that recapitulate disease can significantly reduce animal experimentation and time-to-the-clinic. We used intestinal organoids to quantitatively study the potency of multivalent cholera toxin inhibitors. The method enabled the determination of IC50 values over a wide range of potencies (15 pM to 9 mM). The results indicate for the first time that an organoid-based swelling assay is a useful preclinical method to evaluate inhibitor potencies of drugs that target pathogen-derived toxins.

Published
2016
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10. Thiourea-based spacers in potent divalent inhibitors of Pseudomonas aeruginosa virulence lectin LecA

Author

Pukin, Aliaksei V, Brouwer, Arwin J, Koomen, Leonie, Quarles van Ufford, H C, Kemmink, Johan, de Mol, Nico J, Pieters, Roland J, Sub Medicinal Chemistry & Chemical biol., Medicinal Chemistry and Chemical Biology, Sub Medicinal Chemistry & Chemical biol., and Medicinal Chemistry and Chemical Biology

Subjects
Virulence Factors, Stereochemistry, Virulence, medicine.disease_cause, Biochemistry, Virulence factor, Divalent, chemistry.chemical_compound, Lectins, medicine, Humans, Pseudomonas Infections, Chelation, Physical and Theoretical Chemistry, Binding site, Adhesins, Bacterial, chemistry.chemical_classification, biology, Pseudomonas aeruginosa, Organic Chemistry, Thiourea, Lectin, Anti-Bacterial Agents, Molecular Docking Simulation, chemistry, biology.protein
Abstract

A new divalent highly potent inhibitor of the Pseudomonas aeruginosa lectin and virulence factor LecA was prepared. It contains two thiourea linkages which were found to be in the Z,Z isomeric form. This brings the spacer into an elongated conformation required to bridge the two binding sites, which results in the chelating binding mode responsible for the high potency.

Published
2015
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11. Affinity capillary electrophoresis for the assessment of binding affinity of carbohydrate-based cholera toxin inhibitors

Author

Aizpurua-Olaizola, Oier, Sastre Torano, Javier, Pukin, Aliaksei, Fu, Ou, Boons, Geert Jan, de Jong, Gerhardus J, Pieters, Roland J, Aizpurua-Olaizola, Oier, Sastre Torano, Javier, Pukin, Aliaksei, Fu, Ou, Boons, Geert Jan, de Jong, Gerhardus J, and Pieters, Roland J

Abstract

Developing tools for the study of protein carbohydrate interactions is an important goal in glycobiology. Cholera toxin inhibition is an interesting target in this context, as its inhibition may help to fight against cholera. For the study of novel ligands an affinity capillary electrophoresis (ACE) method was optimized and applied. The method uses unlabeled cholera toxin B-subunit (CTB) and unlabeled carbohydrate ligands based on ganglioside GM1-oligosaccharides (GM1os). In an optimized method at pH 4, adsorption of the protein to the capillary walls was prevented by a polybrene-dextran sulfate-polybrene coating. Different concentrations of the ligands were added to the BGE. CTB binding was observed by a mobility shift that could be used for dissociation constant (Kd ) determination. The Kd values of two GM1 derivatives differed by close to an order of magnitude (600 ± 20 nM and 90 ± 50 nM) which was in good agreement with the differences in their reported nanomolar IC50 values of an ELISA-type assay. Moreover, the selectivity of GM1os towards CTB was demonstrated using Influenza hemagglutinin (H5) as a binding competitor. The developed method can be an important platform for preclinical development of drugs targeting pathogen-induced secretory diarrhea.

Published
2018

12. Affinity capillary electrophoresis for the assessment of binding affinity of carbohydrate-based cholera toxin inhibitors

Author

Afd Chemical Biology and Drug Discovery, Sub Algemeen Scheikunde, Chemical Biology and Drug Discovery, Aizpurua-Olaizola, Oier, Sastre Torano, Javier, Pukin, Aliaksei, Fu, Ou, Boons, Geert Jan, de Jong, Gerhardus J, Pieters, Roland J, Afd Chemical Biology and Drug Discovery, Sub Algemeen Scheikunde, Chemical Biology and Drug Discovery, Aizpurua-Olaizola, Oier, Sastre Torano, Javier, Pukin, Aliaksei, Fu, Ou, Boons, Geert Jan, de Jong, Gerhardus J, and Pieters, Roland J

Published
2018

13. Structural Insight into Multivalent Galactoside Binding to Pseudomonas aeruginosa Lectin LecA

Author

Visini, Ricardo, Jin, Xian, Bergmann, Myriam, Michaud, Gaelle, Pertici, Francesca, Fu, Ou, Pukin, Aliaksei, Branson, Thomas R., Thies-Weesie, Dominique M E, Kemmink, Johan, Gillon, Emilie, Imberty, Anne, Stocker, Achim, Darbre, Tamis, Pieters, Roland J., Reymond, Jean Louis, Physical and Colloid Chemistry, Sub Medicinal Chemistry & Chemical biol., LS Infectiebiologie (Bacteriologie), Sub Physical and Colloid Chemistry, UIPS - Utrecht Institute for Pharmaceutical Sciences, Physical and Colloid Chemistry, Sub Medicinal Chemistry & Chemical biol., LS Infectiebiologie (Bacteriologie), Sub Physical and Colloid Chemistry, and UIPS - Utrecht Institute for Pharmaceutical Sciences

Subjects
Models, Molecular, Stereochemistry, Molecular Sequence Data, Molecular Dynamics Simulation, Crystallography, X-Ray, medicine.disease_cause, Biochemistry, Divalent, Galactosides, Coordination Complexes, Dendrimer, medicine, Binding site, Adhesins, Bacterial, chemistry.chemical_classification, Binding Sites, biology, Pseudomonas aeruginosa, Biofilm, Lectin, General Medicine, Carbohydrate Sequence, chemistry, Galactoside binding, biology.protein, Molecular Medicine
Abstract

Multivalent galactosides inhibiting Pseudomonas aeruginosa biofilms may help control this problematic pathogen. To understand the binding mode of tetravalent glycopeptide dendrimer GalAG2 [(Gal-β-OC6H4CO-Lys-Pro-Leu)4(Lys-Phe-Lys-Ile)2Lys-His-Ile-NH2] to its target lectin LecA, crystal structures of LecA complexes with divalent analog GalAG1 [(Gal-β-OC6H4CO-Lys-Pro-Leu)2Lys-Phe-Lys-Ile-NH2] and related glucose-triazole linked bis-galactosides 3u3 [Gal-β-O(CH2)n-(C2HN3)-4-Glc-β-(C2HN3)-[β-Glc-4-(N3HC2)]2-(CH2)n-O-β-Gal (n = 1)] and 5u3 (n = 3) were obtained, revealing a chelate bound 3u3, cross-linked 5u3, and monovalently bound GalAG1. Nevertheless, a chelate bound model better explaining their strong LecA binding and the absence of lectin aggregation was obtained by modeling for all three ligands. A model of the chelate bound GalAG2·LecA complex was also obtained rationalizing its unusually tight LecA binding (KD = 2.5 nM) and aggregation by lectin cross-linking. The very weak biofilm inhibition with divalent LecA inhibitors suggests that lectin aggregation is necessary for biofilm inhibition by GalAG2, pointing to multivalent glycoclusters as a unique opportunity to control P. aeruginosa biofilms.

Published
2015

14. Tetra- versus Pentavalent Inhibitors of Cholera Toxin

Author

Fu, Ou, Pukin, Aliaksei V., Quarles Van Ufford, Linda, Branson, Thomas R., Thies-Weesie, Dominique M E, Turnbull, W. Bruce, Visser, Gerben M., Pieters, Roland J., Medicinal Chemistry and Chemical Biology, Sub Medicinal Chemistry & Chemical biol., Sub Physical and Colloid Chemistry, and Faculty of Veterinary Medicine Research Groups

Subjects
Steric effects, Chemistry(all), Stereochemistry, Cell, CuAAC click conjugation, glycodendrimers, medicine.disease_cause, parasitic diseases, GM1 oligosaccharide, medicine, biology, Toxin, Chemistry, cholera toxin, Cholera toxin, food and beverages, General Chemistry, AB5 toxin, Full Papers, multivalency, medicine.disease, biology.organism_classification, Cholera, medicine.anatomical_structure, Vibrio cholerae, Tetra
Abstract

The five B-subunits (CTB5) of the Vibrio cholerae (cholera) toxin can bind to the intestinal cell surface so the entire AB5 toxin can enter the cell. Simultaneous binding can occur on more than one of the monosialotetrahexosylganglioside (GM1) units present on the cell surface. Such simultaneous binding arising from the toxins multivalency is believed to enhance its affinity. Thus, blocking the initial attachment of the toxin to the cell surface using inhibitors with GM1 subunits has the potential to stop the disease. Previously we showed that tetravalent GM1 molecules were sub-nanomolar inhibitors of CTB5. In this study, we synthesized a pentavalent version and compared the binding and potency of penta- and tetravalent cholera toxin inhibitors, based on the same scaffold, for the first time. The pentavalent geometry did not yield major benefits over the tetravalent species, but it was still a strong inhibitor, and no major steric clashes occurred when binding the toxin. Thus, systems which can adopt more geometries, such as those described here, can be equally potent, and this may possibly be due to their ability to form higher-order structures or simply due to more statistical options for binding. Carbohydrates combating cholera! Simultaneous binding of the five B-subunits of the cholera toxin (CTB5) enhances its affinity and facilitates its cellular entry. Thus, blocking the toxins initial attachment to the cell surface could stop the disease. The binding pattern and potency of tetra- and pentavalent CTB5 inhibitors based on the same GM1 ganglioside scaffold are compared for the first time.

Published
2015

15. Structural Insight into Multivalent Galactoside Binding to Pseudomonas aeroginosa lectin LecA

Author

Pieters, Roland, Bergmann, Myriam, Pertici, Francesca, Branson, Thomas, Fu, Ou, Visini, Ricardo, Michaud, Gaelle, Gillon, Emilie, Pukin, Aliaksei, Stocker, Achim, Reymond, Jean-Louis, Kemmink, Johan, Darbre, Tamis, Imberty, Anne, and Thies-Weesie, Dominique

Subjects
540 Chemistry, 570 Life sciences, biology
Abstract

Multivalent galactosides inhibiting Pseudomonas aeruginosa biofilms may help control this problematic pathogen. To understand the binding mode of tetravalent glycopeptide dendrimer GalAG2 [(Gal-β-OC6H4CO-Lys-Pro-Leu)4(Lys-Phe-Lys-Ile)2Lys-His-Ile-NH2] to its target lectin LecA, crystal structures of LecA complexes with divalent analog GalAG1 [(Gal-β-OC6H4CO-Lys-Pro-Leu)2Lys-Phe-Lys-Ile-NH2] and related glucose-triazole linked bis-galactosides 3u3 [Gal-β-O(CH2)n-(C2HN3)-4-Glc-β-(C2HN3)-[β-Glc-4-(N3HC2)]2-(CH2)n-O-β-Gal (n = 1)] and 5u3 (n = 3) were obtained, revealing a chelate bound 3u3, cross-linked 5u3, and monovalently bound GalAG1. Nevertheless, a chelate bound model better explaining their strong LecA binding and the absence of lectin aggregation was obtained by modeling for all three ligands. A model of the chelate bound GalAG2·LecA complex was also obtained rationalizing its unusually tight LecA binding (KD = 2.5 nM) and aggregation by lectin cross-linking. The very weak biofilm inhibition with divalent LecA inhibitors suggests that lectin aggregation is necessary for biofilm inhibition by GalAG2, pointing to multivalent glycoclusters as a unique opportunity to control P. aeruginosa biofilms.

Published
2015
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16. Functional characterization of cholera toxin inhibitors using human intestinal organoids

Author

Medicinal Chemistry and Chemical Biology, Sub Medicinal Chemistry & Chemical biol., Zomer-Van Ommen, Domenique D., Pukin, Aliaksei V., Fu, Ou, Quarles Van Ufford, Linda H C, Janssens, Hettie M., Beekman, Jeffrey M., Pieters, Roland J., Medicinal Chemistry and Chemical Biology, Sub Medicinal Chemistry & Chemical biol., Zomer-Van Ommen, Domenique D., Pukin, Aliaksei V., Fu, Ou, Quarles Van Ufford, Linda H C, Janssens, Hettie M., Beekman, Jeffrey M., and Pieters, Roland J.

Published
2016

17. Functional characterization of cholera toxin inhibitors using human intestinal organoids

Author

Beekman, Longziekten onderzoek 2, Child Health, UMC Utrecht, Regenerative Medicine and Stem Cells, Infection & Immunity, Zomer-van Ommen, Domenique D., Pukin, Aliaksei V., Fu, Ou, Quarles Van Ufford, Linda H C, Janssens, Hettie M., Beekman, Jeffrey M., Pieters, Roland J., Beekman, Longziekten onderzoek 2, Child Health, UMC Utrecht, Regenerative Medicine and Stem Cells, Infection & Immunity, Zomer-van Ommen, Domenique D., Pukin, Aliaksei V., Fu, Ou, Quarles Van Ufford, Linda H C, Janssens, Hettie M., Beekman, Jeffrey M., and Pieters, Roland J.

Published
2016

18. Selective Depletion of Neuropathy-Related Antibodies from Human Serum by Monolithic Affinity Columns Containing Ganglioside Mimics

Author

Tetala, Kishore K. R., Heikema, Astrid P., Pukin, Aliaksei V., Weijers, Carel A. G. M., Tio-Gillen, Anne P., Gilbert, Michel, Endtz, Hubert P., van Belkum, Alex, Zuilhof, Han, Visser, Gerben M., Jacobs, Bart C., and van Beek, Teris A.

Abstract

Monolithic columns containing ganglioside GM2 and GM3 mimics were prepared for selective removal of serum anti-ganglioside antibodies from patients with acute and chronic immune-mediated neuropathies. ELISA results demonstrated that anti-GM2 IgM antibodies in human sera and a mouse monoclonal anti-GM2 antibody were specifically and selectively adsorbed by monolithic GM2 mimic columns and not by blank monolithic columns or monolithic GM3 mimic columns. In control studies, serum antibodies against the ganglioside GQ1b from another neuropathy patient were not depleted by monolithic GM2 mimic columns. Fluorescence microscopy with FITC-conjugated anti-human immunoglobulin antibodies showed that the immobilized ganglioside mimics were evenly distributed along the column. The columns were able to capture ∼95% of the anti-GM2 antibodies of patients after only 2 min of incubation. A monolithic column of 4.4 μL can deplete 28.2 μL of undiluted serum. These columns are potential diagnostic and therapeutic tools for neuropathies related to anti-ganglioside antibodies.

Published
2024
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19. Functionalization of a Rigid Divalent Ligand for LecA, a Bacterial Adhesion Lectin

Author

Fu, Ou, Pukin, Aliaksei V., Quarlesvanufford, H. C., Kemmink, Johan, DeMol, Nico J., Pieters, Roland J., Fu, Ou, Pukin, Aliaksei V., Quarlesvanufford, H. C., Kemmink, Johan, DeMol, Nico J., and Pieters, Roland J.

Abstract

The bacterial adhesion lectin LecA is an attractive target for interference with the infectivity of its producer P.aeruginosa. Divalent ligands with two terminal galactoside moieties connected by an alternating glucose-triazole spacer were previously shown to be very potent inhibitors. In this study, we chose to prepare a series of derivatives with various new substituents in the spacer in hopes of further enhancing the LecA inhibitory potency of the molecules. Based on the binding mode, modifications were made to the spacer to enable additional spacer-protein interactions. The introduction of positively charged, negatively charged, and also lipophilic functional groups was successful. The compounds were good LecA ligands, but no improved binding was seen, even though altered thermodynamic parameters were observed by isothermal titration calorimetry (ITC). Linkers for lectin ligands! The P.aeruginosa lectin and virulence factor LecA can be efficiently blocked by divalent galactoside ligands containing a rigid spacer. Further functionalization of the spacer was explored in order to foster spacer-protein interactions. Positively and negatively charged groups as well as lipophilic groups were used for this purpose.

Published
2015

20. Structural Insight into Multivalent Galactoside Binding to Pseudomonas aeruginosa Lectin LecA

Author

Physical and Colloid Chemistry, Sub Medicinal Chemistry & Chemical biol., LS Infectiebiologie (Bacteriologie), Sub Physical and Colloid Chemistry, UIPS - Utrecht Institute for Pharmaceutical Sciences, Visini, Ricardo, Jin, Xian, Bergmann, Myriam, Michaud, Gaelle, Pertici, Francesca, Fu, Ou, Pukin, Aliaksei, Branson, Thomas R., Thies-Weesie, Dominique M E, Kemmink, Johan, Gillon, Emilie, Imberty, Anne, Stocker, Achim, Darbre, Tamis, Pieters, Roland J., Reymond, Jean Louis, Physical and Colloid Chemistry, Sub Medicinal Chemistry & Chemical biol., LS Infectiebiologie (Bacteriologie), Sub Physical and Colloid Chemistry, UIPS - Utrecht Institute for Pharmaceutical Sciences, Visini, Ricardo, Jin, Xian, Bergmann, Myriam, Michaud, Gaelle, Pertici, Francesca, Fu, Ou, Pukin, Aliaksei, Branson, Thomas R., Thies-Weesie, Dominique M E, Kemmink, Johan, Gillon, Emilie, Imberty, Anne, Stocker, Achim, Darbre, Tamis, Pieters, Roland J., and Reymond, Jean Louis

Published
2015

21. Tetra- versus Pentavalent Inhibitors of Cholera Toxin

Author

Medicinal Chemistry and Chemical Biology, Sub Medicinal Chemistry & Chemical biol., Sub Physical and Colloid Chemistry, Faculty of Veterinary Medicine Research Groups, Fu, Ou, Pukin, Aliaksei V., Quarles Van Ufford, Linda, Branson, Thomas R., Thies-Weesie, Dominique M E, Turnbull, W. Bruce, Visser, Gerben M., Pieters, Roland J., Medicinal Chemistry and Chemical Biology, Sub Medicinal Chemistry & Chemical biol., Sub Physical and Colloid Chemistry, Faculty of Veterinary Medicine Research Groups, Fu, Ou, Pukin, Aliaksei V., Quarles Van Ufford, Linda, Branson, Thomas R., Thies-Weesie, Dominique M E, Turnbull, W. Bruce, Visser, Gerben M., and Pieters, Roland J.

Published
2015

22. Thiourea-based spacers in potent divalent inhibitors of Pseudomonas aeruginosa virulence lectin LecA

Author

Sub Medicinal Chemistry & Chemical biol., Medicinal Chemistry and Chemical Biology, Pukin, Aliaksei V, Brouwer, Arwin J, Koomen, Leonie, Quarles van Ufford, H C, Kemmink, Johan, de Mol, Nico J, Pieters, Roland J, Sub Medicinal Chemistry & Chemical biol., Medicinal Chemistry and Chemical Biology, Pukin, Aliaksei V, Brouwer, Arwin J, Koomen, Leonie, Quarles van Ufford, H C, Kemmink, Johan, de Mol, Nico J, and Pieters, Roland J

Published
2015

23. Functionalization of a Rigid Divalent Ligand for LecA, a Bacterial Adhesion Lectin

Author

Sub Medicinal Chemistry & Chemical biol., Chemical Biology, Medicinal Chemistry and Chemical Biology, Fu, Ou, Pukin, Aliaksei V., Quarlesvanufford, H. C., Kemmink, Johan, DeMol, Nico J., Pieters, Roland J., Sub Medicinal Chemistry & Chemical biol., Chemical Biology, Medicinal Chemistry and Chemical Biology, Fu, Ou, Pukin, Aliaksei V., Quarlesvanufford, H. C., Kemmink, Johan, DeMol, Nico J., and Pieters, Roland J.

Published
2015

27. Selective Depletion of Neuropathy-Related Antibodies from Human Serum by Monolithic Affinity Columns Containing Ganglioside Mimics

Author

Tetala, Kishore K. R., primary, Heikema, Astrid P., additional, Pukin, Aliaksei V., additional, Weijers, Carel A. G. M., additional, Tio-Gillen, Anne P., additional, Gilbert, Michel, additional, Endtz, Hubert P., additional, van Belkum, Alex, additional, Zuilhof, Han, additional, Visser, Gerben M., additional, Jacobs, Bart C., additional, and van Beek, Teris A., additional

Published
2011
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31. The Influence of Ligand Valency on Aggregation Mechanisms for Inhibiting Bacterial Toxins

Author

Sisu, Cristina, primary, Baron, Andrew J., additional, Branderhorst, Hilbert M., additional, Connell, Simon D., additional, Weijers, Carel A. G. M., additional, de Vries, Renko, additional, Hayes, Edward D., additional, Pukin, Aliaksei V., additional, Gilbert, Michel, additional, Pieters, Roland J., additional, Zuilhof, Han, additional, Visser, Gerben M., additional, and Turnbull, W. Bruce, additional

Published
2009
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32. GM3, GM2 and GM1 mimics designed for biosensing: chemoenzymatic synthesis, target affinities and 900MHz NMR analysis

Author

Pukin, Aliaksei V., primary, Weijers, Carel A.G.M., additional, van Lagen, Barend, additional, Wechselberger, Rainer, additional, Sun, Bin, additional, Gilbert, Michel, additional, Karwaski, Marie-France, additional, Florack, Dion E.A., additional, Jacobs, Bart C., additional, Tio-Gillen, Anne P., additional, van Belkum, Alex, additional, Endtz, Hubert P., additional, Visser, Gerben M., additional, and Zuilhof, Han, additional

Published
2008
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37. Efficient Stereoselective Glycosylations of Alcohols by Sugar Perpivalates: The First Use of 1-O-Pivaloylated Glycosyl Donors.

Author

Pukin, Aliaksei V. and Zuilhof, Han

Subjects
*GLYCOSIDES, *LACTOSE, *GALACTOSE, *GLUCOKINASE, *FLUORODEOXYGLUCOSE F18
Abstract

1-O-Pivaloyl glycosides were shown to be efficient glycosyl donors by using the perpivaloylated derivatives of lactose, galactose and glucose in the direct ZnCl2-promoted glycosylations of various alcohols. The corresponding glycosides were isolated in good yields and β-selectivity. [ABSTRACT FROM AUTHOR]

Published
2009
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38. Structural Insight into Multivalent Galactoside Binding to Pseudomonas aeruginosa Lectin LecA.

Author

Visini R, Jin X, Bergmann M, Michaud G, Pertici F, Fu O, Pukin A, Branson TR, Thies-Weesie DM, Kemmink J, Gillon E, Imberty A, Stocker A, Darbre T, Pieters RJ, and Reymond JL

Subjects
Adhesins, Bacterial chemistry, Binding Sites, Carbohydrate Sequence, Coordination Complexes chemistry, Crystallography, X-Ray, Galactosides chemistry, Models, Molecular, Molecular Dynamics Simulation, Molecular Sequence Data, Adhesins, Bacterial metabolism, Galactosides metabolism, Pseudomonas aeruginosa metabolism
Abstract

Multivalent galactosides inhibiting Pseudomonas aeruginosa biofilms may help control this problematic pathogen. To understand the binding mode of tetravalent glycopeptide dendrimer GalAG2 [(Gal-β-OC6H4CO-Lys-Pro-Leu)4(Lys-Phe-Lys-Ile)2Lys-His-Ile-NH2] to its target lectin LecA, crystal structures of LecA complexes with divalent analog GalAG1 [(Gal-β-OC6H4CO-Lys-Pro-Leu)2Lys-Phe-Lys-Ile-NH2] and related glucose-triazole linked bis-galactosides 3u3 [Gal-β-O(CH2)n-(C2HN3)-4-Glc-β-(C2HN3)-[β-Glc-4-(N3HC2)]2-(CH2)n-O-β-Gal (n = 1)] and 5u3 (n = 3) were obtained, revealing a chelate bound 3u3, cross-linked 5u3, and monovalently bound GalAG1. Nevertheless, a chelate bound model better explaining their strong LecA binding and the absence of lectin aggregation was obtained by modeling for all three ligands. A model of the chelate bound GalAG2·LecA complex was also obtained rationalizing its unusually tight LecA binding (KD = 2.5 nM) and aggregation by lectin cross-linking. The very weak biofilm inhibition with divalent LecA inhibitors suggests that lectin aggregation is necessary for biofilm inhibition by GalAG2, pointing to multivalent glycoclusters as a unique opportunity to control P. aeruginosa biofilms.

Published
2015
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39. Tetra- versus Pentavalent Inhibitors of Cholera Toxin.

Author

Fu O, Pukin AV, van Ufford HC, Branson TR, Thies-Weesie DM, Turnbull WB, Visser GM, and Pieters RJ

Abstract

The five B-subunits (CTB5) of the Vibrio cholerae (cholera) toxin can bind to the intestinal cell surface so the entire AB5 toxin can enter the cell. Simultaneous binding can occur on more than one of the monosialotetrahexosylganglioside (GM1) units present on the cell surface. Such simultaneous binding arising from the toxins multivalency is believed to enhance its affinity. Thus, blocking the initial attachment of the toxin to the cell surface using inhibitors with GM1 subunits has the potential to stop the disease. Previously we showed that tetravalent GM1 molecules were sub-nanomolar inhibitors of CTB5. In this study, we synthesized a pentavalent version and compared the binding and potency of penta- and tetravalent cholera toxin inhibitors, based on the same scaffold, for the first time. The pentavalent geometry did not yield major benefits over the tetravalent species, but it was still a strong inhibitor, and no major steric clashes occurred when binding the toxin. Thus, systems which can adopt more geometries, such as those described here, can be equally potent, and this may possibly be due to their ability to form higher-order structures or simply due to more statistical options for binding.

Published
2015
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