Your search keyword '"Imberty A"' showing total 56 results

1. Lipopolysaccharides at Solid and Liquid Interfaces : Models for Biophysical Studies of the Gram-negative Bacterial Outer Membrane

Author

Paracini, Nicoló, Schneck, Emanuel, Imberty, Anne, Micciulla, Samantha, Paracini, Nicoló, Schneck, Emanuel, Imberty, Anne, and Micciulla, Samantha

Abstract

Lipopolysaccharides (LPSs) are a constitutive element of the cell envelope of Gram-negative bacteria, representing the main lipid in the external leaflet of their outer membrane (OM) lipid bilayer. These unique surface-exposed glycolipids play a central role in the interactions of Gram-negative organisms with their surrounding environment and represent a key element for protection against antimicrobials and the development of antibiotic resistance. The biophysical investigation of a wide range of different types of in vitro model membranes containing reconstituted LPS has revealed functional and structural properties of these peculiar membrane lipids, providing molecular-level details of their interaction with antimicrobial compounds. LPS assemblies reconstituted at interfaces represent a versatile tool to study the properties of the Gram-negative OM by exploiting several surface-sensitive techniques, in particular X-ray and neutron scattering, which can probe the structure of thin films with sub-nanometer resolution. This review provides an overview of different approaches employed to investigate structural and biophysical properties of LPS, focusing on studies on Langmuir monolayers of LPS at the air/liquid interface and a range of supported LPS-containing model membranes reconstituted at solid/liquid interfaces.

Published

2022

2. Lipopolysaccharides at Solid and Liquid Interfaces : Models for Biophysical Studies of the Gram-negative Bacterial Outer Membrane

Author

Paracini, Nicoló, Schneck, Emanuel, Imberty, Anne, Micciulla, Samantha, Paracini, Nicoló, Schneck, Emanuel, Imberty, Anne, and Micciulla, Samantha

Abstract

Lipopolysaccharides (LPSs) are a constitutive element of the cell envelope of Gram-negative bacteria, representing the main lipid in the external leaflet of their outer membrane (OM) lipid bilayer. These unique surface-exposed glycolipids play a central role in the interactions of Gram-negative organisms with their surrounding environment and represent a key element for protection against antimicrobials and the development of antibiotic resistance. The biophysical investigation of a wide range of different types of in vitro model membranes containing reconstituted LPS has revealed functional and structural properties of these peculiar membrane lipids, providing molecular-level details of their interaction with antimicrobial compounds. LPS assemblies reconstituted at interfaces represent a versatile tool to study the properties of the Gram-negative OM by exploiting several surface-sensitive techniques, in particular X-ray and neutron scattering, which can probe the structure of thin films with sub-nanometer resolution. This review provides an overview of different approaches employed to investigate structural and biophysical properties of LPS, focusing on studies on Langmuir monolayers of LPS at the air/liquid interface and a range of supported LPS-containing model membranes reconstituted at solid/liquid interfaces.

Published

2022

3. Targeting undruggable carbohydrate recognition sites through focused fragment library design

Author

Shanina, Elena, Kuhaudomlarp, Sakonwan, Siebs, Eike, Fuchsberger, Felix F., Denis, Maxime, Gomes, Priscila da Silva Figueiredo Celestino, Clausen, Mads H., Seeberger, Peter H., Rognan, Didier, Titz, Alexander, Imberty, Anne, Rademacher, Christoph, Shanina, Elena, Kuhaudomlarp, Sakonwan, Siebs, Eike, Fuchsberger, Felix F., Denis, Maxime, Gomes, Priscila da Silva Figueiredo Celestino, Clausen, Mads H., Seeberger, Peter H., Rognan, Didier, Titz, Alexander, Imberty, Anne, and Rademacher, Christoph

Abstract

Carbohydrate-protein interactions are key for cell-cell and host-pathogen recognition, but their hydrophilic nature makes the development of drug-like inhibitors a challenge. Here, screening of fragment libraries identifies metal-binding pharmacophores as novel scaffolds for the inhibition of Ca2+-dependent carbohydrate-protein interactions. Carbohydrate-protein interactions are key for cell-cell and host-pathogen recognition and thus, emerged as viable therapeutic targets. However, their hydrophilic nature poses major limitations to the conventional development of drug-like inhibitors. To address this shortcoming, four fragment libraries were screened to identify metal-binding pharmacophores (MBPs) as novel scaffolds for inhibition of Ca2+-dependent carbohydrate-protein interactions. Here, we show the effect of MBPs on the clinically relevant lectins DC-SIGN, Langerin, LecA and LecB. Detailed structural and biochemical investigations revealed the specificity of MBPs for different Ca2+-dependent lectins. Exploring the structure-activity relationships of several fragments uncovered the functional groups in the MBPs suitable for modification to further improve lectin binding and selectivity. Selected inhibitors bound efficiently to DC-SIGN-expressing cells. Altogether, the discovery of MBPs as a promising class of Ca2+-dependent lectin inhibitors creates a foundation for fragment-based ligand design for future drug discovery campaigns.

Published

2022

4. Stereoselective synthesis of fluorinated galactopyranosides as potential molecular probes for galactophilic proteins : assessment of monofluorogalactoside–LecA interactions

Author

Fortin, Sébastien, Lainé, Danny, Bouzriba, Chahrazed, Giguère, Denis, Shanina, Elena, Denavit, Vincent, Gillon, Émilie, Rademacher, Christoph, Imberty, Anne, Fortin, Sébastien, Lainé, Danny, Bouzriba, Chahrazed, Giguère, Denis, Shanina, Elena, Denavit, Vincent, Gillon, Émilie, Rademacher, Christoph, and Imberty, Anne

Abstract

The replacement of hydroxyl groups by fluorine atoms on hexopyranoside scaffolds may allow access to invaluable tools for studying various biochemical processes. As part of ongoing activities toward the preparation of fluorinated carbohydrates, a systematic investigation involving the synthesis and biological evaluation of a series of mono‐ and polyfluorinated galactopyranosides is described. Various monofluorogalactopyranosides, a trifluorinated, and a tetrafluorinated galactopyranoside have been prepared using a Chiron approach. Given the scarcity of these compounds in the literature, in addition to their synthesis, their biological profiles were evaluated. Firstly, the fluorinated compounds were investigated as antiproliferative agents using normal human and mouse cells in comparison with cancerous cells. Most of the fluorinated compounds showed no antiproliferative activity. Secondly, these carbohydrate probes were used as potential inhibitors of galactophilic lectins. The first transverse relaxation‐optimized spectroscopy (TROSY) NMR experiments were performed on these interactions, examining chemical shift perturbations of the backbone resonances of LecA, a virulence factor from Pseudomonas aeruginosa. Moreover, taking advantage of the fluorine atom, the 19F NMR resonances of the monofluorogalactopyranosides were directly monitored in the presence and absence of LecA to assess ligand binding. Lastly, these results were corroborated with the binding potencies of the monofluorinated galactopyranoside derivatives by isothermal titration calorimetry experiments. Analogues with fluorine atoms at C‐3 and C‐4 showed weaker affinities with LecA as compared to those with the fluorine atom at C‐2 or C‐6. This research has focused on the chemical synthesis of “drug‐like” low‐molecular‐weight inhibitors that circumvent drawbacks typically associated with natural oligosaccharides.

Published

2021

5. Stereoselective synthesis of fluorinated galactopyranosides as potential molecular probes for galactophilic proteins : assessment of monofluorogalactoside–LecA interactions

Author

Denavit, Vincent, Lainé, Danny, Bouzriba, Chahrazed, Shanina, Elena, Gillon, Émilie, Fortin, Sébastien, Rademacher, Christoph, Imberty, Anne, Giguère, Denis, Denavit, Vincent, Lainé, Danny, Bouzriba, Chahrazed, Shanina, Elena, Gillon, Émilie, Fortin, Sébastien, Rademacher, Christoph, Imberty, Anne, and Giguère, Denis

Abstract

The replacement of hydroxyl groups by fluorine atoms on hexopyranoside scaffolds may allow access to invaluable tools for studying various biochemical processes. As part of ongoing activities toward the preparation of fluorinated carbohydrates, a systematic investigation involving the synthesis and biological evaluation of a series of mono‐ and polyfluorinated galactopyranosides is described. Various monofluorogalactopyranosides, a trifluorinated, and a tetrafluorinated galactopyranoside have been prepared using a Chiron approach. Given the scarcity of these compounds in the literature, in addition to their synthesis, their biological profiles were evaluated. Firstly, the fluorinated compounds were investigated as antiproliferative agents using normal human and mouse cells in comparison with cancerous cells. Most of the fluorinated compounds showed no antiproliferative activity. Secondly, these carbohydrate probes were used as potential inhibitors of galactophilic lectins. The first transverse relaxation‐optimized spectroscopy (TROSY) NMR experiments were performed on these interactions, examining chemical shift perturbations of the backbone resonances of LecA, a virulence factor from Pseudomonas aeruginosa. Moreover, taking advantage of the fluorine atom, the 19F NMR resonances of the monofluorogalactopyranosides were directly monitored in the presence and absence of LecA to assess ligand binding. Lastly, these results were corroborated with the binding potencies of the monofluorinated galactopyranoside derivatives by isothermal titration calorimetry experiments. Analogues with fluorine atoms at C‐3 and C‐4 showed weaker affinities with LecA as compared to those with the fluorine atom at C‐2 or C‐6. This research has focused on the chemical synthesis of “drug‐like” low‐molecular‐weight inhibitors that circumvent drawbacks typically associated with natural oligosaccharides.

Published

2019

6. Architecture and Evolution of Blade Assembly in beta-propeller Lectins

Author

Bonnardel, Francois, Kumar, Atul, Wimmerova, Michaela, Lahmann, Martina, Perez, Serge, Varrot, Annabelle, Lisacek, Frederique, Imberty, Anne, Bonnardel, Francois, Kumar, Atul, Wimmerova, Michaela, Lahmann, Martina, Perez, Serge, Varrot, Annabelle, Lisacek, Frederique, and Imberty, Anne

Abstract

Lectins with a beta-propeller fold bind glycans on the cell surface through multivalent binding sites and appropriate directionality. These proteins are formed by repeats of short domains, raising questions about evolutionary duplication. However, these repeats are difficult to detect in translated genomes and seldom correctly annotated in sequence databases. To address these issues, we defined the blade signature of the five types of beta-propellers using 3D-structural data. With these templates, we predicted 3,887 beta-propeller lectins in 1,889 species and organized this information in a searchable online database. The data reveal a widespread distribution of beta-propeller lectins across species. Prediction also emphasizes multiple architectures and led to the discovery of a beta-propeller assembly scenario. This was confirmed by producing and characterizing a predicted protein coded in the genome of Kordia zhangzhouensis. The crystal structure uncovers an intermediate in the evolution of beta-propeller assembly and demonstrates the power of our tools., QC 20211206

Published

2019

7. Synthetic glycobiology

Author

Turnbull, W. Bruce, Imberty, Anne, Blixt, Ola, Turnbull, W. Bruce, Imberty, Anne, and Blixt, Ola

Published

2019

8. Effect of Noncanonical Amino Acids on Protein-Carbohydrate Interactions: Structure, Dynamics, and Carbohydrate Affinity of a Lectin Engineered with Fluorinated Tryptophan Analogs

Author

Tobola, Felix, Lelimousin, Mickael, Varrot, Annabelle, Gillon, Emilie, Darnhofer, Barbara, Blixt, Ola, Birner-Gruenberger, Ruth, Imberty, Anne, Wiltschi, Birgit, Tobola, Felix, Lelimousin, Mickael, Varrot, Annabelle, Gillon, Emilie, Darnhofer, Barbara, Blixt, Ola, Birner-Gruenberger, Ruth, Imberty, Anne, and Wiltschi, Birgit

Published

2018

9. Molecular Simulations of Carbohydrates with a Fucose-Binding Burkholderia ambifaria Lectin Suggest Modulation by Surface Residues Outside the Fucose-Binding Pocket

Author

Dingjan, T, Imberty, A, Perez, S, Yuriev, E, Ramsland, PA, Dingjan, T, Imberty, A, Perez, S, Yuriev, E, and Ramsland, PA

Abstract

Burkholderia ambifaria is an opportunistic respiratory pathogen belonging to the Burkholderia cepacia complex, a collection of species responsible for the rapidly fatal cepacia syndrome in cystic fibrosis patients. A fucose-binding lectin identified in the B. ambifaria genome, BambL, is able to adhere to lung tissue, and may play a role in respiratory infection. X-ray crystallography has revealed the bound complex structures for four fucosylated human blood group epitopes (blood group B, H type 1, H type 2, and Lex determinants). The present study employed computational approaches, including docking and molecular dynamics (MD), to extend the structural analysis of BambL-oligosaccharide complexes to include four additional blood group saccharides (A, Lea, Leb, and Ley) and a library of blood-group-related carbohydrates. Carbohydrate recognition is dominated by interactions with fucose via a hydrogen-bonding network involving Arg15, Glu26, Ala38, and Trp79 and a stacking interaction with Trp74. Additional hydrogen bonds to non-fucose residues are formed with Asp30, Tyr35, Thr36, and Trp74. BambL recognition is dominated by interactions with fucose, but also features interactions with other parts of the ligands that may modulate specificity or affinity. The detailed computational characterization of the BambL carbohydrate-binding site provides guidelines for the future design of lectin inhibitors.

Published

2017

10. Multivalent glycoconjugates as anti-pathogenic agents

Author

Bernardi, A, Jiménez Barbero, J, Casnati, A, De Castro, C, Darbre, T, Fieschi, F, Finne, J, Funken, H, Jaeger, K, Lahmann, M, Lindhorst, T, Marradi, M, Messner, P, Molinaro, A, Murphy, P, Nativi, C, Oscarson, S, Penadés, S, Peri, F, Pieters, R, Renaudet, O, Reymond, J, Richichi, B, Rojo, J, Sansone, F, Schäffer, C, Turnbull, W, Velasco Torrijos, T, Vidal, S, Vincent, S, Wennekes, T, Zuilhof, H, Imberty, A, Jaeger, K. E, Lindhorst, TK, Murphy, PV, Pieters, RJ, Reymond, J. L, Turnbull, WB, Imberty, A., PERI, FRANCESCO, Bernardi, A, Jiménez Barbero, J, Casnati, A, De Castro, C, Darbre, T, Fieschi, F, Finne, J, Funken, H, Jaeger, K, Lahmann, M, Lindhorst, T, Marradi, M, Messner, P, Molinaro, A, Murphy, P, Nativi, C, Oscarson, S, Penadés, S, Peri, F, Pieters, R, Renaudet, O, Reymond, J, Richichi, B, Rojo, J, Sansone, F, Schäffer, C, Turnbull, W, Velasco Torrijos, T, Vidal, S, Vincent, S, Wennekes, T, Zuilhof, H, Imberty, A, Jaeger, K. E, Lindhorst, TK, Murphy, PV, Pieters, RJ, Reymond, J. L, Turnbull, WB, Imberty, A., and PERI, FRANCESCO

Abstract

Multivalency plays a major role in biological processes and particularly in the relationship between pathogenic microorganisms and their host that involves protein–glycan recognition. These interactions occur during the first steps of infection, for specific recognition between host and bacteria, but also at different stages of the immune response. The search for high-affinity ligands for studying such interactions involves the combination of carbohydrate head groups with different scaffolds and linkers generating multivalent glycocompounds with controlled spatial and topology parameters. By interfering with pathogen adhesion, such glycocompounds including glycopolymers, glycoclusters, glycodendrimers and glyconanoparticles have the potential to improve or replace antibiotic treatments that are now subverted by resistance. Multivalent glycoconjugates have also been used for stimulating the innate and adaptive immune systems, for example with carbohydrate-based vaccines. Bacteria present on their surfaces natural multivalent glycoconjugates such as lipopolysaccharides and S-layers that can also be exploited or targeted in anti-infectious strategies.

Published

2013

11. Purification of a new lectin present in seeds from Lepechinia bullata and Salvia bogotensis genus

Author

Wilches, A., Fernández Alonso, José Luis, Reyes, E. A., Imberty, A., Barrot, A., Vega, N.A., Wilches, A., Fernández Alonso, José Luis, Reyes, E. A., Imberty, A., Barrot, A., and Vega, N.A.

Published

2016

12. 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

13. 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

14. 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

15. Disabilité et coéducation. Devenir «grand» avec ses élèves et ses enfants

Author

F. Olabarrieta Artexte, L. M. Iturbide Luquin, A. Etxaniz Aranzeta, Caldin, R, Pileri, A, Imberty, M, Cinotti, A, F. Olabarrieta Artexte, L. M. Iturbide Luquin, A. Etxaniz Aranzeta, Caldin, R, Pileri, A, Imberty, M, and Cinotti, A

Abstract

Le présent article, forgé d’un tableau théorique qui implique la perspective de la coéducation, vise à décrire les résultats des deux recherches menées dans les services éducatifs et scolaire (Paris et Bologne), ansi que l’importance qu’y revêt aujourd’hui l’analyse et la réflexion des processus inclusifs a soutien des enfants avec disabilité or en situation de vulnérabilité. On considère particulièrement les variables relatives au contexte et aux pratiques (d’accordage et déaccordage) et aux représentations des adultes qui prennent soin des enfantes.

Published

2015

16. Importance of the polarity of the glycosaminoglycan chain on the interaction with FGF-1

Author

Muñoz García, Juan Carlos, García Jiménez, M. José, Carrero, Paula, Canales, Ángeles, Jiménez Barbero, Jesús, Martín Lomas, Manuel, Imberty, Anne, Paz, José L. de, Angulo Álvarez, Jesús, Lortat Jacob, Hughes, Nieto, Pedro M., Muñoz García, Juan Carlos, García Jiménez, M. José, Carrero, Paula, Canales, Ángeles, Jiménez Barbero, Jesús, Martín Lomas, Manuel, Imberty, Anne, Paz, José L. de, Angulo Álvarez, Jesús, Lortat Jacob, Hughes, and Nieto, Pedro M.

Abstract

Heparin-like saccharides play an essential role in binding to the fibroblast growth factor (FGF)-1 and to their membrane receptors fibroblast growth factor receptor forming a ternary complex that is responsible of the internalization of the signal, via the dimerization of the intracellular regions of the receptor. In this study, we report the binding affinities between five synthetic hexasaccharides with human FGF-1 obtained by surface plasmon resonance experiments, and compare with the induced mitogenic activity previously obtained. These five oligosaccharides differ in sulfation pattern and in sequence. We have previously demonstrated that all the five hexasaccharides have similar 3D structure of the backbone. Consequently, the differences in binding affinity should have their origin in the substitution pattern. Subsequently, the different capacity for induction of mitogenic activity can be, at least partially, explained from these binding affinities. Interestingly, one of the oligosaccharides lacking axially symmetry (3) was biologically inactive, whereas the other (2) was the most active. The difference between both compounds is the order of the FGF-binding motifs along the chain relative to the carbohydrate polarity. We can conclude that the directionality of the GAG chain is essential for the binding and subsequent activation. The relative biological activity of the compounds with regular substitution pattern can be inferred from their values of IC50. Remarkably, the sulfate in position 6 of d-glucosamine was essential for the mitogenic activity but not for the interaction with FGF-1.

Published

2014

17. Importance of the polarity of the glycosaminoglycan chain on the interaction with FGF-1

Author

Muñoz García, Juan Carlos, García Jiménez, M. José, Carrero, Paula, Canales, Ángeles, Jiménez Barbero, Jesús, Martín Lomas, Manuel, Imberty, Anne, Paz, José L. de, Angulo Álvarez, Jesús, Lortat Jacob, Hughes, Nieto, Pedro M., Muñoz García, Juan Carlos, García Jiménez, M. José, Carrero, Paula, Canales, Ángeles, Jiménez Barbero, Jesús, Martín Lomas, Manuel, Imberty, Anne, Paz, José L. de, Angulo Álvarez, Jesús, Lortat Jacob, Hughes, and Nieto, Pedro M.

Abstract

Heparin-like saccharides play an essential role in binding to the fibroblast growth factor (FGF)-1 and to their membrane receptors fibroblast growth factor receptor forming a ternary complex that is responsible of the internalization of the signal, via the dimerization of the intracellular regions of the receptor. In this study, we report the binding affinities between five synthetic hexasaccharides with human FGF-1 obtained by surface plasmon resonance experiments, and compare with the induced mitogenic activity previously obtained. These five oligosaccharides differ in sulfation pattern and in sequence. We have previously demonstrated that all the five hexasaccharides have similar 3D structure of the backbone. Consequently, the differences in binding affinity should have their origin in the substitution pattern. Subsequently, the different capacity for induction of mitogenic activity can be, at least partially, explained from these binding affinities. Interestingly, one of the oligosaccharides lacking axially symmetry (3) was biologically inactive, whereas the other (2) was the most active. The difference between both compounds is the order of the FGF-binding motifs along the chain relative to the carbohydrate polarity. We can conclude that the directionality of the GAG chain is essential for the binding and subsequent activation. The relative biological activity of the compounds with regular substitution pattern can be inferred from their values of IC50. Remarkably, the sulfate in position 6 of d-glucosamine was essential for the mitogenic activity but not for the interaction with FGF-1.

Published

2014

18. Importance of the polarity of the glycosaminoglycan chain on the interaction with FGF-1

Author

Muñoz García, Juan Carlos, García Jiménez, M. José, Carrero, Paula, Canales, Ángeles, Jiménez Barbero, Jesús, Martín Lomas, Manuel, Imberty, Anne, Paz, José L. de, Angulo Álvarez, Jesús, Lortat Jacob, Hughes, Nieto, Pedro M., Muñoz García, Juan Carlos, García Jiménez, M. José, Carrero, Paula, Canales, Ángeles, Jiménez Barbero, Jesús, Martín Lomas, Manuel, Imberty, Anne, Paz, José L. de, Angulo Álvarez, Jesús, Lortat Jacob, Hughes, and Nieto, Pedro M.

Abstract

Heparin-like saccharides play an essential role in binding to the fibroblast growth factor (FGF)-1 and to their membrane receptors fibroblast growth factor receptor forming a ternary complex that is responsible of the internalization of the signal, via the dimerization of the intracellular regions of the receptor. In this study, we report the binding affinities between five synthetic hexasaccharides with human FGF-1 obtained by surface plasmon resonance experiments, and compare with the induced mitogenic activity previously obtained. These five oligosaccharides differ in sulfation pattern and in sequence. We have previously demonstrated that all the five hexasaccharides have similar 3D structure of the backbone. Consequently, the differences in binding affinity should have their origin in the substitution pattern. Subsequently, the different capacity for induction of mitogenic activity can be, at least partially, explained from these binding affinities. Interestingly, one of the oligosaccharides lacking axially symmetry (3) was biologically inactive, whereas the other (2) was the most active. The difference between both compounds is the order of the FGF-binding motifs along the chain relative to the carbohydrate polarity. We can conclude that the directionality of the GAG chain is essential for the binding and subsequent activation. The relative biological activity of the compounds with regular substitution pattern can be inferred from their values of IC50. Remarkably, the sulfate in position 6 of d-glucosamine was essential for the mitogenic activity but not for the interaction with FGF-1.

Published

2014

19. Importance of the polarity of the glycosaminoglycan chain on the interaction with FGF-1

Author

Muñoz García, Juan Carlos, García Jiménez, M. José, Carrero, Paula, Canales, Ángeles, Jiménez Barbero, Jesús, Martín Lomas, Manuel, Imberty, Anne, Paz, José L. de, Angulo Álvarez, Jesús, Lortat Jacob, Hughes, Nieto, Pedro M., Muñoz García, Juan Carlos, García Jiménez, M. José, Carrero, Paula, Canales, Ángeles, Jiménez Barbero, Jesús, Martín Lomas, Manuel, Imberty, Anne, Paz, José L. de, Angulo Álvarez, Jesús, Lortat Jacob, Hughes, and Nieto, Pedro M.

Abstract

Heparin-like saccharides play an essential role in binding to the fibroblast growth factor (FGF)-1 and to their membrane receptors fibroblast growth factor receptor forming a ternary complex that is responsible of the internalization of the signal, via the dimerization of the intracellular regions of the receptor. In this study, we report the binding affinities between five synthetic hexasaccharides with human FGF-1 obtained by surface plasmon resonance experiments, and compare with the induced mitogenic activity previously obtained. These five oligosaccharides differ in sulfation pattern and in sequence. We have previously demonstrated that all the five hexasaccharides have similar 3D structure of the backbone. Consequently, the differences in binding affinity should have their origin in the substitution pattern. Subsequently, the different capacity for induction of mitogenic activity can be, at least partially, explained from these binding affinities. Interestingly, one of the oligosaccharides lacking axially symmetry (3) was biologically inactive, whereas the other (2) was the most active. The difference between both compounds is the order of the FGF-binding motifs along the chain relative to the carbohydrate polarity. We can conclude that the directionality of the GAG chain is essential for the binding and subsequent activation. The relative biological activity of the compounds with regular substitution pattern can be inferred from their values of IC50. Remarkably, the sulfate in position 6 of d-glucosamine was essential for the mitogenic activity but not for the interaction with FGF-1.

Published

2014

20. Importance of the polarity of the glycosaminoglycan chain on the interaction with FGF-1

Author

Muñoz García, Juan Carlos, García Jiménez, M. José, Carrero, Paula, Canales, Ángeles, Jiménez Barbero, Jesús, Martín Lomas, Manuel, Imberty, Anne, Paz, José L. de, Angulo Álvarez, Jesús, Lortat Jacob, Hughes, Nieto, Pedro M., Muñoz García, Juan Carlos, García Jiménez, M. José, Carrero, Paula, Canales, Ángeles, Jiménez Barbero, Jesús, Martín Lomas, Manuel, Imberty, Anne, Paz, José L. de, Angulo Álvarez, Jesús, Lortat Jacob, Hughes, and Nieto, Pedro M.

Abstract

Heparin-like saccharides play an essential role in binding to the fibroblast growth factor (FGF)-1 and to their membrane receptors fibroblast growth factor receptor forming a ternary complex that is responsible of the internalization of the signal, via the dimerization of the intracellular regions of the receptor. In this study, we report the binding affinities between five synthetic hexasaccharides with human FGF-1 obtained by surface plasmon resonance experiments, and compare with the induced mitogenic activity previously obtained. These five oligosaccharides differ in sulfation pattern and in sequence. We have previously demonstrated that all the five hexasaccharides have similar 3D structure of the backbone. Consequently, the differences in binding affinity should have their origin in the substitution pattern. Subsequently, the different capacity for induction of mitogenic activity can be, at least partially, explained from these binding affinities. Interestingly, one of the oligosaccharides lacking axially symmetry (3) was biologically inactive, whereas the other (2) was the most active. The difference between both compounds is the order of the FGF-binding motifs along the chain relative to the carbohydrate polarity. We can conclude that the directionality of the GAG chain is essential for the binding and subsequent activation. The relative biological activity of the compounds with regular substitution pattern can be inferred from their values of IC50. Remarkably, the sulfate in position 6 of d-glucosamine was essential for the mitogenic activity but not for the interaction with FGF-1.

Published

2014

21. A lipid zipper triggers bacterial invasion

Author

Eierhoff, T., Bastian, B., Thuenauer, R., Madl, J., Audfray, A., Aigal, S., Juillot, S., Rydell, G.E., Müller, S., de Bentzmann, S., Imberty, A., Fleck, C., Römer, W., Eierhoff, T., Bastian, B., Thuenauer, R., Madl, J., Audfray, A., Aigal, S., Juillot, S., Rydell, G.E., Müller, S., de Bentzmann, S., Imberty, A., Fleck, C., and Römer, W.

Abstract

Glycosphingolipids are important structural constituents of cellular membranes. They are involved in the formation of nanodomains (“lipid rafts”), which serve as important signaling platforms. Invasive bacterial pathogens exploit these signaling domains to trigger actin polymerization for the bending of the plasma membrane and the engulfment of the bacterium—a key process in bacterial uptake. However, it is unknown whether glycosphingolipids directly take part in the membrane invagination process. Here, we demonstrate that a “lipid zipper,” which is formed by the interaction between the bacterial surface lectin LecA and its cellular receptor, the glycosphingolipid Gb3, triggers plasma membrane bending during host cell invasion of the bacterium Pseudomonas aeruginosa. In vitro experiments with Gb3-containing giant unilamellar vesicles revealed that LecA/Gb3-mediated lipid zippering was sufficient to achieve complete membrane engulfment of the bacterium. In addition, theoretical modeling elucidated that the adhesion energy of the LecA–Gb3 interaction is adequate to drive the engulfment process. In cellulo experiments demonstrated that inhibition of the LecA/Gb3 lipid zipper by either lecA knockout, Gb3 depletion, or application of soluble sugars that interfere with LecA binding to Gb3 significantly lowered P. aeruginosa uptake by host cells. Of note, membrane engulfment of P. aeruginosa occurred independently of actin polymerization, thus corroborating that lipid zippering alone is sufficient for this crucial first step of bacterial host-cell entry. Our study sheds new light on the impact of glycosphingolipids in the cellular invasion of bacterial pathogens and provides a mechanistic explication of the initial uptake processes.

Published

2014

22. Importance of the polarity of the glycosaminoglycan chain on the interaction with FGF-1

Author

Muñoz-García, Juan C., García-Jiménez, María José, Carrero, Paula, Canales, Ángeles, Jiménez-Barbero, Jesús, Martín-Lomas, Manuel, Imberty, Anne, Paz, José L. de, Angulo, Jesús, Lortat-Jacob, Hughes, Nieto, Pedro M., Muñoz-García, Juan C., García-Jiménez, María José, Carrero, Paula, Canales, Ángeles, Jiménez-Barbero, Jesús, Martín-Lomas, Manuel, Imberty, Anne, Paz, José L. de, Angulo, Jesús, Lortat-Jacob, Hughes, and Nieto, Pedro M.

Abstract

Heparin-like saccharides play an essential role in binding to the fibroblast growth factor (FGF)-1 and to their membrane receptors fibroblast growth factor receptor forming a ternary complex that is responsible of the internalization of the signal, via the dimerization of the intracellular regions of the receptor. In this study, we report the binding affinities between five synthetic hexasaccharides with human FGF-1 obtained by surface plasmon resonance experiments, and compare with the induced mitogenic activity previously obtained. These five oligosaccharides differ in sulfation pattern and in sequence. We have previously demonstrated that all the five hexasaccharides have similar 3D structure of the backbone. Consequently, the differences in binding affinity should have their origin in the substitution pattern. Subsequently, the different capacity for induction of mitogenic activity can be, at least partially, explained from these binding affinities. Interestingly, one of the oligosaccharides lacking axially symmetry (3) was biologically inactive, whereas the other (2) was the most active. The difference between both compounds is the order of the FGF-binding motifs along the chain relative to the carbohydrate polarity. We can conclude that the directionality of the GAG chain is essential for the binding and subsequent activation. The relative biological activity of the compounds with regular substitution pattern can be inferred from their values of IC50. Remarkably, the sulfate in position 6 of D-glucosamine was essential for the mitogenic activity but not for the interaction with FGF-1.

Published

2014

23. Conformational Preferences of the O-Antigen Polysaccharides of Escherichia coli O5ac and O5ab Using NMR Spectroscopy and Molecular Modeling

Author

Sarkar, Anita, Fontana, Carolina, Imberty, Anne, Perez, Serge, Widmalm, Göran, Sarkar, Anita, Fontana, Carolina, Imberty, Anne, Perez, Serge, and Widmalm, Göran

Abstract

Escherichia coli serogroup O5 comprises two different subgroups (O5ab and O5ac), which are indiscernible from the point of view of standard immunological serotyping. The structural similarities between the O-antigen polysaccharides (PSs) of these two strains are remarkable, with the only difference being the glycosidic linkage connecting the biological tetrasaccharide repeating units. In the present study, a combination of NMR spectroscopy and molecular modeling methods were used to elucidate the conformational preferences of these two PSs. The NMR study was based on the analysis of intra- and inter-residue proton-proton distances using NOE build-up curves. Molecular models of the repeating units and their extension to polysaccharides were obtained, taking into account the conformational flexibility as assessed by the force field applied and a genetic algorithm. The agreements between experimentally measured and calculated distances could only be obtained by considering an averaging of several low energy conformations observed in the molecular models., AuthorCount:5

Published

2013

24. Multivalent glycoconjugates as anti-pathogenic agents

Author

Bernardi, Anna, Jimenez-Barbero, Jesus, Casnati, Alessandro, De Castro, Cristina, Darbre, Tamis, Fieschi, Franck, Finne, Jukka, Funken, Horst, Jaeger, Karl-Erich, Lahmann, Martina, Lindhorst, Thisbe K., Marradi, Marco, Messner, Paul, Molinaro, Antonio, Murphy, Paul V., Nativi, Cristina, Oscarson, Stefan, Penades, Soledad, Peri, Francesco, Pieters, Roland J., Renaudet, Olivier, Reymond, Jean-Louis, Richichi, Barbara, Rojo, Javier, Sansone, Francesco, Schaeffer, Christina, Turnbull, W. Bruce, Velasco-Torrijos, Trinidad, Vidal, Sebastien, Vincent, Stephane, Wennekes, Tom, Zuilhof, Han, Imberty, Anne, Bernardi, Anna, Jimenez-Barbero, Jesus, Casnati, Alessandro, De Castro, Cristina, Darbre, Tamis, Fieschi, Franck, Finne, Jukka, Funken, Horst, Jaeger, Karl-Erich, Lahmann, Martina, Lindhorst, Thisbe K., Marradi, Marco, Messner, Paul, Molinaro, Antonio, Murphy, Paul V., Nativi, Cristina, Oscarson, Stefan, Penades, Soledad, Peri, Francesco, Pieters, Roland J., Renaudet, Olivier, Reymond, Jean-Louis, Richichi, Barbara, Rojo, Javier, Sansone, Francesco, Schaeffer, Christina, Turnbull, W. Bruce, Velasco-Torrijos, Trinidad, Vidal, Sebastien, Vincent, Stephane, Wennekes, Tom, Zuilhof, Han, and Imberty, Anne

Abstract

Multivalency plays a major role in biological processes and particularly in the relationship between pathogenic microorganisms and their host that involves protein-glycan recognition. These interactions occur during the first steps of infection, for specific recognition between host and bacteria, but also at different stages of the immune response. The search for high-affinity ligands for studying such interactions involves the combination of carbohydrate head groups with different scaffolds and linkers generating multivalent glycocompounds with controlled spatial and topology parameters. By interfering with pathogen adhesion, such glycocompounds including glycopolymers, glycoclusters, glycodendrimers and glyconanoparticles have the potential to improve or replace antibiotic treatments that are now subverted by resistance. Multivalent glycoconjugates have also been used for stimulating the innate and adaptive immune systems, for example with carbohydrate-based vaccines. Bacteria present on their surfaces natural multivalent glycoconjugates such as lipopolysaccharides and S-layers that can also be exploited or targeted in anti-infectious strategies., QC 20211206

Published

2013

25. A Soluble Fucose-Specific Lectin from Aspergillus fumigatus Conidia - Structure, Specificity and Possible Role in Fungal Pathogenicity

Author

Houser, Josef, Komarek, Jan, Kostlanova, Nikola, Cioci, Gianluca, Varrot, Annabelle, Kerr, Sheena C., Lahmann, Martina, Balloy, Viviane, Fahy, John V., Chignard, Michel, Imberty, Anne, Wimmerova, Michaela, Houser, Josef, Komarek, Jan, Kostlanova, Nikola, Cioci, Gianluca, Varrot, Annabelle, Kerr, Sheena C., Lahmann, Martina, Balloy, Viviane, Fahy, John V., Chignard, Michel, Imberty, Anne, and Wimmerova, Michaela

Abstract

Aspergillus fumigatus is an important allergen and opportunistic pathogen. Similarly to many other pathogens, it is able to produce lectins that may be involved in the host-pathogen interaction. We focused on the lectin AFL, which was prepared in recombinant form and characterized. Its binding properties were studied using hemagglutination and glycan array analysis. We determined the specificity of the lectin towards l-fucose and fucosylated oligosaccharides, including alpha 1-6 linked core-fucose, which is an important marker for cancerogenesis. Other biologically relevant saccharides such as sialic acid, d-mannose or d-galactose were not bound. Blood group epitopes of the ABH and Lewis systems were recognized, Le(Y) being the preferred ligand among others. To provide a correlation between the observed functional characteristics and structural basis, AFL was crystallized in a complex with methyl-alpha,L-selenofucoside and its structure was solved using the SAD method. Six binding sites, each with different compositions, were identified per monomer and significant differences from the homologous AAL lectin were found. Structure-derived peptides were utilized to prepare anti-AFL polyclonal antibodies, which suggested the presence of AFL on the Aspergillus' conidia, confirming its expression in vivo. Stimulation of human bronchial cells by AFL led to IL-8 production in a dose-dependent manner. AFL thus probably contributes to the inflammatory response observed upon the exposure of a patient to A. fumigatus. The combination of affinity to human epithelial epitopes, production by conidia and pro-inflammatory activity is remarkable and shows that AFL might be an important virulence factor involved in an early stage of A. fumigatus infection., QC 20211206

Published

2013

26. Multivalent glycoconjugates as anti-pathogenic agents.

Author

Bernardi, Anna, Jiménez-Barbero, Jesús, Casnati, Alessandro, Castro, Cristina de, Darbre, Tamis, Fieschi, Franck, Finne, Jukka, Funken, Horst, Jaeger, Karl-Erich, Lahmann, Martina, Lindhorst, Thisbe K., Marradi, Marco, Messner, Paul, Molinaro, Antonio, Murphy, Paul V., Nativi, Cristina, Oscarson, Stefan, Penadés, Soledad, Peri, Francesco, Pieters, Roland J., Renaudet, Olivier, Reymond, Jean-Louis, Richichi, Barbara, Rojo, Francisco Javier, Sansone, Francesco, Schäffer, Christina, Turnbull, W. Bruce, Velasco-Torrijos, Trinidad, Vidal, Sébastien, Vincent, Stéphane P., Wennekes, Tom, Zuilhof, Han, Imberty, Anne, Bernardi, Anna, Jiménez-Barbero, Jesús, Casnati, Alessandro, Castro, Cristina de, Darbre, Tamis, Fieschi, Franck, Finne, Jukka, Funken, Horst, Jaeger, Karl-Erich, Lahmann, Martina, Lindhorst, Thisbe K., Marradi, Marco, Messner, Paul, Molinaro, Antonio, Murphy, Paul V., Nativi, Cristina, Oscarson, Stefan, Penadés, Soledad, Peri, Francesco, Pieters, Roland J., Renaudet, Olivier, Reymond, Jean-Louis, Richichi, Barbara, Rojo, Francisco Javier, Sansone, Francesco, Schäffer, Christina, Turnbull, W. Bruce, Velasco-Torrijos, Trinidad, Vidal, Sébastien, Vincent, Stéphane P., Wennekes, Tom, Zuilhof, Han, and Imberty, Anne

Abstract

Multivalency plays a major role in biological processes and particularly in the relationship between pathogenic microorganisms and their host that involves protein–glycan recognition. These interactions occur during the first steps of infection, for specific recognition between host and bacteria, but also at different stages of the immune response. The search for high-affinity ligands for studying such interactions involves the combination of carbohydrate head groups with different scaffolds and linkers generating multivalent glycocompounds with controlled spatial and topology parameters. By interfering with pathogen adhesion, such glycocompounds including glycopolymers, glycoclusters, glycodendrimers and glyconanoparticles have the potential to improve or replace antibiotic treatments that are now subverted by resistance. Multivalent glycoconjugates have also been used for stimulating the innate and adaptive immune systems, for example with carbohydrate-based vaccines. Bacteria present on their surfaces natural multivalent glycoconjugates such as lipopolysaccharides and S-layers that can also be exploited or targeted in anti-infectious strategies.

Published

2013

27. Fucose binding lectins from opportunistic pathogens and blood group antigens

Author

Varrot, Annabelle, Audfray, Aymeric, Houser, Josef, Sulak, Ondrej, Cioci, Gianluca, Lahmann, Martina, Imberty, Anne, Wimmerova, Michaela, Varrot, Annabelle, Audfray, Aymeric, Houser, Josef, Sulak, Ondrej, Cioci, Gianluca, Lahmann, Martina, Imberty, Anne, and Wimmerova, Michaela

Abstract

QC 20211206

Published

2012

28. Multivalent glycoconjugates as anti-pathogenic agents

Author

Bernardi, Anna, Jimenez-Barbero, Jesus, Casnati, Alessandro, De Castro, Christina, Darbre, Tamis, Fieschi, Franck, Finne, Jukka, Funken, Horst, Jaeger, Karl-Erich, Lahmann, Martina, Lindhorst, Thisbe K., Marradi, Marco, Messner, Paul, Molinaro, Antonio, Murphy, Paul V., Nativi, Cristina, Oscarson, Stefan, Penades, Soledad, Peri, Francesco, Pieters, Roland J., Renaudet, Olivier, Reymond, Jean-Reymond, Richichi, Barbara, Rojo, Javier, Sansone, Francesco, Schaffer, Christina, Turnbull, W. Bruce, Velasco-Torrijos, Trinidad, Vidal, Sebastien, Vincent, Stephane, Wennekes, Tom, Zuilhof, Han, Imberty, Anne, Bernardi, Anna, Jimenez-Barbero, Jesus, Casnati, Alessandro, De Castro, Christina, Darbre, Tamis, Fieschi, Franck, Finne, Jukka, Funken, Horst, Jaeger, Karl-Erich, Lahmann, Martina, Lindhorst, Thisbe K., Marradi, Marco, Messner, Paul, Molinaro, Antonio, Murphy, Paul V., Nativi, Cristina, Oscarson, Stefan, Penades, Soledad, Peri, Francesco, Pieters, Roland J., Renaudet, Olivier, Reymond, Jean-Reymond, Richichi, Barbara, Rojo, Javier, Sansone, Francesco, Schaffer, Christina, Turnbull, W. Bruce, Velasco-Torrijos, Trinidad, Vidal, Sebastien, Vincent, Stephane, Wennekes, Tom, Zuilhof, Han, and Imberty, Anne

Abstract

Multivalency plays a major role in biological processes and particularly in the relationship between pathogenic microorganisms and their host that involves protein–glycan recognition. These interactions occur during the first steps of infection, for specific recognition between host and bacteria, but also at different stages of the immune response. The search for high-affinity ligands for studying such interactions involves the combination of carbohydrate head groups with different scaffolds and linkers generating multivalent glycocompounds with controlled spatial and topology parameters. By interfering with pathogen adhesion, such glycocompounds including glycopolymers, glycoclusters, glycodendrimers and glyconanoparticles have the potential to improve or replace antibiotic treatments that are now subverted by resistance. Multivalent glycoconjugates have also been used for stimulating the innate and adaptive immune systems, for example with carbohydrate-based vaccines. Bacteria present on their surfaces natural multivalent glycoconjugates such as lipopolysaccharides and S-layers that can also be exploited or targeted in anti-infectious strategies

Published

2012

29. Multivalent glycoconjugates as anti-pathogenic agents

Author

Bernardi, Anna, Jimenez-Barbero, Jesus, Casnati, Alessandro, De Castro, Christina, Darbre, Tamis, Fieschi, Franck, Finne, Jukka, Funken, Horst, Jaeger, Karl-Erich, Lahmann, Martina, Lindhorst, Thisbe K., Marradi, Marco, Messner, Paul, Molinaro, Antonio, Murphy, Paul V., Nativi, Cristina, Oscarson, Stefan, Penades, Soledad, Peri, Francesco, Pieters, Roland J., Renaudet, Olivier, Reymond, Jean-Reymond, Richichi, Barbara, Rojo, Javier, Sansone, Francesco, Schaffer, Christina, Turnbull, W. Bruce, Velasco-Torrijos, Trinidad, Vidal, Sebastien, Vincent, Stephane, Wennekes, Tom, Zuilhof, Han, Imberty, Anne, Bernardi, Anna, Jimenez-Barbero, Jesus, Casnati, Alessandro, De Castro, Christina, Darbre, Tamis, Fieschi, Franck, Finne, Jukka, Funken, Horst, Jaeger, Karl-Erich, Lahmann, Martina, Lindhorst, Thisbe K., Marradi, Marco, Messner, Paul, Molinaro, Antonio, Murphy, Paul V., Nativi, Cristina, Oscarson, Stefan, Penades, Soledad, Peri, Francesco, Pieters, Roland J., Renaudet, Olivier, Reymond, Jean-Reymond, Richichi, Barbara, Rojo, Javier, Sansone, Francesco, Schaffer, Christina, Turnbull, W. Bruce, Velasco-Torrijos, Trinidad, Vidal, Sebastien, Vincent, Stephane, Wennekes, Tom, Zuilhof, Han, and Imberty, Anne

Abstract

Multivalency plays a major role in biological processes and particularly in the relationship between pathogenic microorganisms and their host that involves protein–glycan recognition. These interactions occur during the first steps of infection, for specific recognition between host and bacteria, but also at different stages of the immune response. The search for high-affinity ligands for studying such interactions involves the combination of carbohydrate head groups with different scaffolds and linkers generating multivalent glycocompounds with controlled spatial and topology parameters. By interfering with pathogen adhesion, such glycocompounds including glycopolymers, glycoclusters, glycodendrimers and glyconanoparticles have the potential to improve or replace antibiotic treatments that are now subverted by resistance. Multivalent glycoconjugates have also been used for stimulating the innate and adaptive immune systems, for example with carbohydrate-based vaccines. Bacteria present on their surfaces natural multivalent glycoconjugates such as lipopolysaccharides and S-layers that can also be exploited or targeted in anti-infectious strategies

Published

2012

30. Développement de glycoconjugués ciblant la virulence bactérienne.

Author

FUNDP - SCHI_GCOBS (groupe de chimie organique et bioorganique supramoléculaire), FUNDP - Ecole doctorale en sciences, Vincent, Stéphane, Bonifazi, Davide, Wouters, Johan, Nierengarten, Jean François, Riant, Olivier, Imberty, Anne, Durka, Maxime, FUNDP - SCHI_GCOBS (groupe de chimie organique et bioorganique supramoléculaire), FUNDP - Ecole doctorale en sciences, Vincent, Stéphane, Bonifazi, Davide, Wouters, Johan, Nierengarten, Jean François, Riant, Olivier, Imberty, Anne, and Durka, Maxime

Abstract

The treatment of bacterial infection is becoming difficult due to the increasing resistance of most clinically relevant bacterial strains. New type of weapons to tackle this growing problem are, therefore, urgently needed. Drugs targeting virulence is an alternative approach to treat infections provoked by resistant bacteria. By weakening pathogenic bacteria, the “antivirulence strategy” intends to increase their sensitivity against the host innate immunity such as components of human complement but also to classical antibiotics. In this context, disrupting the Gram negative bacterial cell wall biosynthesis is particularly interesting to target, as well as the microbial adhesion process necessary for further colonization. We developed during this work, new glycoconjugates targeting the bacterial heptose biosynthetic pathway and new multivalent glycoconjugates targeting bacterial adhesion processes., (DOCSC02) -- FUNDP, 2011

Published

2011

31. A TNF-like Trimeric Lectin Domain from Burkholdeda cenocepacia with Specificity for Fucosylated Human Histo-Blood Group Antigens

Author

Sulak, Ondrej, Cioci, Gianluca, Delia, Monia, Lahmann, Martina, Varrot, Annabelle, Imberty, Anne, Wimmerova, Michaela, Sulak, Ondrej, Cioci, Gianluca, Delia, Monia, Lahmann, Martina, Varrot, Annabelle, Imberty, Anne, and Wimmerova, Michaela

Abstract

The opportunistic pathogen Burkholderia cenocepacia expresses several soluble lectins, among them BC2L-C. This lectin exhibits two domains: a C-terminal domain with high sequence similarity to the recently described calcium-dependent mannose-binding lectin BC2L-A, and an N-terminal domain of 156 amino acids without similarity to any known protein. The recombinant N-terminal BC2L-C domain is a new lectin with specificity for fucosylated human histo-blood group epitopes H-type 1, Lewis b, and Lewis Y, as determined by glycan array and isothermal titration calorimetry. Methylselenofucoside was used as ligand to solve the crystal structure of the N-terminal BC2L-C domain. Additional molecular modeling studies rationalized the preference for Lewis epitopes. The structure reveals a trimeric jellyroll arrangement with striking similarity to TNF-like proteins, and to BcIA, the spore protein from Bacillus anthracis which may play an important role in bioadhesion of anthrax spores in human lungs., QC 20211206

Published

2010

32. Dramatic effect of PSE clamping on the behaviour of d-glucal under Ferrier I conditions

Author

UCL - FSA/MAPR - Département des sciences des matériaux et des procédés, Fernandes, Antony E., Dell'Olmo, Maxime, Tatibouët, Arnaud, Imberty, Anne, Philouze, Christian, Rollin, Patrick, UCL - FSA/MAPR - Département des sciences des matériaux et des procédés, Fernandes, Antony E., Dell'Olmo, Maxime, Tatibouët, Arnaud, Imberty, Anne, Philouze, Christian, and Rollin, Patrick

Abstract

Clamped by the acid-resistant phenylsulfonylethylidene (PSE) acetal, d-glucal privileged the additive pathway over the Ferrier I rearrangement when confronted with protic nucleophiles.

Published

2008

33. Catalytic key amino acids and UDP-sugar donor specificity of a plant glucuronosyltransferase, UGT94B1:molecular modeling substantiated by site-specific mutagenesis and biochemical analyses

Author

Osmani, Sarah Anne, Bak, Søren, Imberty, Anne, Olsen, C Erik, Møller, Birger Lindberg, Osmani, Sarah Anne, Bak, Søren, Imberty, Anne, Olsen, C Erik, and Møller, Birger Lindberg

Published

2008

34. Catalytic key amino acids and UDP-sugar donor specificity of a plant glucuronosyltransferase, UGT94B1:molecular modeling substantiated by site-specific mutagenesis and biochemical analyses

Author

Osmani, Sarah Anne, Bak, Søren, Imberty, Anne, Olsen, C Erik, Møller, Birger Lindberg, Osmani, Sarah Anne, Bak, Søren, Imberty, Anne, Olsen, C Erik, and Møller, Birger Lindberg

Published

2008

35. The ß-glucosidases responsible for bioactivation of hydroxynitrile glucosides in Lotus japonicus

Author

Morant, Anne Vinther, Bjarnholt, Nanna, Kragh, Mads Emil, Kjærgaard, Christian Hauge, Jørgensen, Kirsten, Paquette, Suzanne Michelle, Piotrowski, Markus, Imberty, Anne, Olsen, C Erik, Møller, Birger Lindberg, Bak, Søren, Morant, Anne Vinther, Bjarnholt, Nanna, Kragh, Mads Emil, Kjærgaard, Christian Hauge, Jørgensen, Kirsten, Paquette, Suzanne Michelle, Piotrowski, Markus, Imberty, Anne, Olsen, C Erik, Møller, Birger Lindberg, and Bak, Søren

Abstract

Lotus japonicus accumulates the hydroxynitrile glucosides lotaustralin, linamarin, and rhodiocyanosides A and D. Upon tissue disruption, the hydroxynitrile glucosides are bioactivated by hydrolysis by specific beta-glucosidases. A mixture of two hydroxynitrile glucoside-cleaving b-glucosidases was isolated from L. japonicus leaves and identified by protein sequencing as LjBGD2 and LjBGD4. The isolated hydroxynitrile glucoside-cleaving beta-glucosidases preferentially hydrolyzed rhodiocyanoside A and lotaustralin, whereas linamarin was only slowly hydrolyzed, in agreement with measurements of their rate of degradation upon tissue disruption in L. japonicus leaves. Comparative homology modeling predicted that LjBGD2 and LjBGD4 had nearly identical overall topologies and substrate-binding pockets. Heterologous expression of LjBGD2 and LjBGD4 in Arabidopsis (Arabidopsis thaliana) enabled analysis of their individual substrate specificity profiles and confirmed that both LjBGD2 and LjBGD4 preferentially hydrolyze the hydroxynitrile glucosides present in L. japonicus. Phylogenetic analyses revealed a third L. japonicus putative hydroxynitrile glucoside-cleaving beta-glucosidase, LjBGD7. Reverse transcription-polymerase chain reaction analysis showed that LjBGD2 and LjBGD4 are expressed in aerial parts of young L. japonicus plants, while LjBGD7 is expressed exclusively in roots. The differential expression pattern of LjBGD2, LjBGD4, and LjBGD7 corresponds to the previously observed expression profile for CYP79D3 and CYP79D4, encoding the two cytochromes P450 that catalyze the first committed step in the biosyntheis of hydroxynitrile glucosides in L. japonicus, with CYP79D3 expression in aerial tissues and CYP79D4 expression in roots.

Published

2008

36. The ß-glucosidases responsible for bioactivation of hydroxynitrile glucosides in Lotus japonicus

Author

Morant, Anne Vinther, Bjarnholt, Nanna, Kragh, Mads Emil, Kjærgaard, Christian Hauge, Jørgensen, Kirsten, Paquette, Suzanne Michelle, Piotrowski, Markus, Imberty, Anne, Olsen, C Erik, Møller, Birger Lindberg, Bak, Søren, Morant, Anne Vinther, Bjarnholt, Nanna, Kragh, Mads Emil, Kjærgaard, Christian Hauge, Jørgensen, Kirsten, Paquette, Suzanne Michelle, Piotrowski, Markus, Imberty, Anne, Olsen, C Erik, Møller, Birger Lindberg, and Bak, Søren

Abstract

Lotus japonicus accumulates the hydroxynitrile glucosides lotaustralin, linamarin, and rhodiocyanosides A and D. Upon tissue disruption, the hydroxynitrile glucosides are bioactivated by hydrolysis by specific beta-glucosidases. A mixture of two hydroxynitrile glucoside-cleaving b-glucosidases was isolated from L. japonicus leaves and identified by protein sequencing as LjBGD2 and LjBGD4. The isolated hydroxynitrile glucoside-cleaving beta-glucosidases preferentially hydrolyzed rhodiocyanoside A and lotaustralin, whereas linamarin was only slowly hydrolyzed, in agreement with measurements of their rate of degradation upon tissue disruption in L. japonicus leaves. Comparative homology modeling predicted that LjBGD2 and LjBGD4 had nearly identical overall topologies and substrate-binding pockets. Heterologous expression of LjBGD2 and LjBGD4 in Arabidopsis (Arabidopsis thaliana) enabled analysis of their individual substrate specificity profiles and confirmed that both LjBGD2 and LjBGD4 preferentially hydrolyze the hydroxynitrile glucosides present in L. japonicus. Phylogenetic analyses revealed a third L. japonicus putative hydroxynitrile glucoside-cleaving beta-glucosidase, LjBGD7. Reverse transcription-polymerase chain reaction analysis showed that LjBGD2 and LjBGD4 are expressed in aerial parts of young L. japonicus plants, while LjBGD7 is expressed exclusively in roots. The differential expression pattern of LjBGD2, LjBGD4, and LjBGD7 corresponds to the previously observed expression profile for CYP79D3 and CYP79D4, encoding the two cytochromes P450 that catalyze the first committed step in the biosyntheis of hydroxynitrile glucosides in L. japonicus, with CYP79D3 expression in aerial tissues and CYP79D4 expression in roots.

Published

2008

37. Conformational studies on five octasaccharides isolated from chondroitin sulfate using NMR spectroscopy and molecular modeling

Author

Chemie van glyco-conjugaten, Dep Scheikunde, Blanchard, V., Chevalier, F., Imberty, A., Leeflang, B.R., Sugahara, K., Kamerling, J.P., Chemie van glyco-conjugaten, Dep Scheikunde, Blanchard, V., Chevalier, F., Imberty, A., Leeflang, B.R., Sugahara, K., and Kamerling, J.P.

Published

2007

38. How a plant lectin recognizes high mannose oligosaccharides.

Author

Garcia-Pino, Abel, Buts, Lieven, Wyns, Lode, Imberty, Anne, Loris, Remy, Garcia-Pino, Abel, Buts, Lieven, Wyns, Lode, Imberty, Anne, and Loris, Remy

Abstract

The crystal structure of Pterocarpus angolensis seed lectin is presented in complex with a series of high mannose (Man) oligosaccharides ranging from Man-5 to Man-9. Despite that several of the nine Man residues of Man-9 have the potential to bind in the monosaccharide-binding site, all oligomannoses are bound in the same unique way, employing the tetrasaccharide sequence Manalpha(1-2)Manalpha(1-6)[Manalpha(1-3)]Manalpha(1-. Isothermal titration calorimetry titration experiments using Man-5, Man-9, and the Man-9-containing glycoprotein soybean (Glycine max) agglutinin as ligands confirm the monovalence of Man-9 and show a 4-times higher affinity for Man-9 when it is presented to P. angolensis seed lectin in a glycoprotein context., info:eu-repo/semantics/published

Published

2007

39. Conformational studies on five octasaccharides isolated from chondroitin sulfate using NMR spectroscopy and molecular modeling

Author

Chemie van glyco-conjugaten, Dep Scheikunde, Blanchard, V., Chevalier, F., Imberty, A., Leeflang, B.R., Sugahara, K., Kamerling, J.P., Chemie van glyco-conjugaten, Dep Scheikunde, Blanchard, V., Chevalier, F., Imberty, A., Leeflang, B.R., Sugahara, K., and Kamerling, J.P.

Published

2007

40. Conformational studies on five octasaccharides isolated from chondroitin sulfate using NMR spectroscopy and molecular modeling

Author

Chemie van glyco-conjugaten, Dep Scheikunde, Blanchard, V., Chevalier, F., Imberty, A., Leeflang, B.R., Sugahara, K., Kamerling, J.P., Chemie van glyco-conjugaten, Dep Scheikunde, Blanchard, V., Chevalier, F., Imberty, A., Leeflang, B.R., Sugahara, K., and Kamerling, J.P.

Published

2007

41. How a plant lectin recognizes high mannose oligosaccharides.

Author

Garcia-Pino, Abel, Buts, Lieven, Wyns, Lode, Imberty, Anne, Loris, Remy, Garcia-Pino, Abel, Buts, Lieven, Wyns, Lode, Imberty, Anne, and Loris, Remy

Abstract

The crystal structure of Pterocarpus angolensis seed lectin is presented in complex with a series of high mannose (Man) oligosaccharides ranging from Man-5 to Man-9. Despite that several of the nine Man residues of Man-9 have the potential to bind in the monosaccharide-binding site, all oligomannoses are bound in the same unique way, employing the tetrasaccharide sequence Manalpha(1-2)Manalpha(1-6)[Manalpha(1-3)]Manalpha(1-. Isothermal titration calorimetry titration experiments using Man-5, Man-9, and the Man-9-containing glycoprotein soybean (Glycine max) agglutinin as ligands confirm the monovalence of Man-9 and show a 4-times higher affinity for Man-9 when it is presented to P. angolensis seed lectin in a glycoprotein context., info:eu-repo/semantics/published

Published

2007

42. Structural basis for the recognition of complex-type biantennary oligosaccharides by Pterocarpus angolensis lectin.

Author

Buts, Lieven, Garcia-Pino, Abel, Imberty, Anne, Amiot, Nicolas, Boons, Geert-Jan, Beeckmans, Sonia, Versées, Wim, Wyns, Lode, Loris, Remy, Buts, Lieven, Garcia-Pino, Abel, Imberty, Anne, Amiot, Nicolas, Boons, Geert-Jan, Beeckmans, Sonia, Versées, Wim, Wyns, Lode, and Loris, Remy

Abstract

The crystal structure of Pterocarpus angolensis lectin is determined in its ligand-free state, in complex with the fucosylated biantennary complex type decasaccharide NA2F, and in complex with a series of smaller oligosaccharide constituents of NA2F. These results together with thermodynamic binding data indicate that the complete oligosaccharide binding site of the lectin consists of five subsites allowing the specific recognition of the pentasaccharide GlcNAc beta(1-2)Man alpha(1-3)[GlcNAc beta(1-2)Man alpha(1-6)]Man. The mannose on the 1-6 arm occupies the monosaccharide binding site while the GlcNAc residue on this arm occupies a subsite that is almost identical to that of concanavalin A (con A). The core mannose and the GlcNAc beta(1-2)Man moiety on the 1-3 arm on the other hand occupy a series of subsites distinct from those of con A., FLWIN, info:eu-repo/semantics/published

Published

2006

43. Structural basis for the recognition of complex-type biantennary oligosaccharides by Pterocarpus angolensis lectin.

Author

Buts, Lieven, Garcia-Pino, Abel, Imberty, Anne, Amiot, Nicolas, Boons, Geert-Jan, Beeckmans, Sonia, Versées, Wim, Wyns, Lode, Loris, Remy, Buts, Lieven, Garcia-Pino, Abel, Imberty, Anne, Amiot, Nicolas, Boons, Geert-Jan, Beeckmans, Sonia, Versées, Wim, Wyns, Lode, and Loris, Remy

Abstract

The crystal structure of Pterocarpus angolensis lectin is determined in its ligand-free state, in complex with the fucosylated biantennary complex type decasaccharide NA2F, and in complex with a series of smaller oligosaccharide constituents of NA2F. These results together with thermodynamic binding data indicate that the complete oligosaccharide binding site of the lectin consists of five subsites allowing the specific recognition of the pentasaccharide GlcNAc beta(1-2)Man alpha(1-3)[GlcNAc beta(1-2)Man alpha(1-6)]Man. The mannose on the 1-6 arm occupies the monosaccharide binding site while the GlcNAc residue on this arm occupies a subsite that is almost identical to that of concanavalin A (con A). The core mannose and the GlcNAc beta(1-2)Man moiety on the 1-3 arm on the other hand occupy a series of subsites distinct from those of con A., FLWIN, info:eu-repo/semantics/published

Published

2006

44. The fucose-binding lectin from Ralstonia solanacearum : A new type of beta-propeller architecture formed by oligomerization and interacting with fucoside, fucosyllactose, and plant xyloglucan

Author

Kostlanova, N, Mitchell, E P, Lortat-Jacob, H, Oscarson, S, Lahmann, Martina, Gilboa-Garber, N, Chambat, G, Wimmerova, M, Imberty, A, Kostlanova, N, Mitchell, E P, Lortat-Jacob, H, Oscarson, S, Lahmann, Martina, Gilboa-Garber, N, Chambat, G, Wimmerova, M, and Imberty, A

Abstract

Plant pathogens, like animal ones, use protein-carbohydrate interactions in their strategy for host recognition, attachment, and invasion. The bacterium Ralstonia solanacearum, which is distributed worldwide and causes lethal wilt in many agricultural crops, was shown to produce a potent L-fucose-binding lectin, R. solanacearum lectin, a small protein of 90 amino acids with a tandem repeat in its amino acid sequence. In the present study, surface plasmon resonance experiments conducted on a series of oligosaccharides show a preference for binding to alpha Fuc1-2Gal and alpha Fuc1-6Gal epitopes. Titration microcalorimetry demonstrates the presence of two binding sites per monomer and an unusually high affinity of the lectin for alpha Fuc1-2Gal-containing oligosaccharides (K-D = 2.5 x 10(-7) M for 2-fucosyllactose). R. solanacearum lectin has been crystallized with a methyl derivative of fucose and with the highest affinity ligand, 2-fucosyllactose. X-ray crystal structures, the one with alpha-methyl-fucoside being at ultrahigh resolution, reveal that each monomer consists of two small four-stranded anti-parallel beta-sheets. Trimerization through a 3-fold or pseudo-3-fold axis generates a six-bladed beta-propeller architecture, very similar to that previously described for the fungal lectin of Aleuria aurantia. This is the first report of a beta-propeller formed by oligomerization and not by sequential domains. Each monomer presents two fucose binding sites, resulting in six symmetrically arranged sugar binding sites for the beta-propeller. Crystals were also obtained for a mutated lectin complexed with a fragment of xyloglucan, a fucosylated polysaccharide from the primary cell wall of plants, which may be the biological target of the lectin., QC 20230602

Published

2005

45. Determination of catalytic key amino acids and UDP sugar donor specificity of the cyanohydrin glycosyltransferase UGT85B1 from Sorghum bicolor:Molecular modeling substantiated by site-specific mutagenesis and biochemical analyses

Author

Thorsøe, Karina Sinding, Bak, Søren, Olsen, Carl Erik, Imberty, Anne, Breton, Christelle, Møller, Birger Lindberg, Thorsøe, Karina Sinding, Bak, Søren, Olsen, Carl Erik, Imberty, Anne, Breton, Christelle, and Møller, Birger Lindberg

Published

2005

46. Determination of catalytic key amino acids and UDP sugar donor specificity of the cyanohydrin glycosyltransferase UGT85B1 from Sorghum bicolor:Molecular modeling substantiated by site-specific mutagenesis and biochemical analyses

Author

Thorsøe, Karina Sinding, Bak, Søren, Olsen, Carl Erik, Imberty, Anne, Breton, Christelle, Møller, Birger Lindberg, Thorsøe, Karina Sinding, Bak, Søren, Olsen, Carl Erik, Imberty, Anne, Breton, Christelle, and Møller, Birger Lindberg

Published

2005

47. Foreword

Author

Imberty, A., Engelsen, S. B., Tvaroska, I., Imberty, A., Engelsen, S. B., and Tvaroska, I.

Published

2004

48. Structure-function analysis of the human sialyltransferase ST3Gal I - Role of N-glycosylation and a novel conserved sialylmotif

Author

Jeanneau, C., Chazalet, V., Auge, C., Soumpasis, Dikeos Mario, Harduin-Lepers, A., Delannoy, P., Imberty, A., Breton, C., Jeanneau, C., Chazalet, V., Auge, C., Soumpasis, Dikeos Mario, Harduin-Lepers, A., Delannoy, P., Imberty, A., and Breton, C.

Abstract

All eukaryotic sialyltransferases have in common the presence in their catalytic domain of several conserved peptide regions (sialylmotifs L, S, and VS). Functional analysis of sialylmotifs L and S previously demonstrated their involvement in the binding of donor and acceptor substrates. The region comprised between the sialylmotifs S and VS contains a stretch of four highly conserved residues, with the following consensus sequence (H/ y) Y(Y/F/W/h)(E/D/q/g). (Capital letters and lowercase letters indicate a strong or low occurrence of the amino acid, respectively.) The functional importance of these residues and of the conserved residues of motif VS (HX4E) was assessed using as a template the human ST3Gal I. Mutational analysis showed that residues His(299) and Tyr(300) of the new motif, and His(316) of the VS motif, are essential for activity since their substitution by alanine yielded inactive enzymes. Our results suggest that the invariant Tyr residue (Tyr(300)) plays an important conformational role mainly attributable to the aromatic ring. In contrast, the mutants W301F, E302Q, and E321Q retained significant enzyme activity (25 - 80% of the wild type). Kinetic analyses and CDP binding assays showed that none of the mutants tested had any significant effect in nucleotide donor binding. Instead the mutant proteins were affected in their binding to the acceptor and/or demonstrated lower catalytic efficiency. Although the human ST3Gal I has four N-glycan attachment sites in its catalytic domain that are potentially glycosylated, none of them was shown to be necessary for enzyme activity. However, N-glycosylation appears to contribute to the proper folding and trafficking of the enzyme.

Published

2004

49. Foreword

Author

Imberty, A., Engelsen, S. B., Tvaroska, I., Imberty, A., Engelsen, S. B., and Tvaroska, I.

Published

2004

50. Combining fold recognition and exploratory data analysis for searching for glycosyltransferases in the genome of Mycobacterium tuberculosis

Author

Wimmerová, M., Engelsen, Søren Balling, Bettler, E., Breton, C., Imberty, A., Wimmerová, M., Engelsen, Søren Balling, Bettler, E., Breton, C., and Imberty, A.

Published

2003