High-affinity monovalent ligands for lectins are challenging to develop due to weak binding interactions. This study investigates the potential of rationally designed covalent ligands targeting the N-terminal domain of BC2L-C lectin from Burkholderia cenocepacia, a pathogen causing severe respiratory infections in immunocompromised patients. Anti-adhesion therapy is emerging as a complementary approach against such infections and bacterial lectins are suitable targets. The fucose-specific BC2L-C-Nt recognizes blood group oligosaccharides on host cells. Using a computational approach, we designed reversible covalent competitive ligands that include a fucoside anchor and a salicylaldehyde warhead targeting Lys108 near the fucose-binding site. Several candidates were synthesized and tested using competition experiments. The most effective ligand improved the IC50 of methyl-fucoside by two orders of magnitude, matching the affinity of the native H-type 1 trisaccharide. Control experiments confirmed the importance of both fucose anchor and salicylaldehyde moiety in the ligand’s affinity. Mass analysis confirmed covalent interaction with Lys108.
Achieving high affinity for a bacterial lectin with reversible covalent ligands / G. Antonini, A. Bernardi, E. Gillon, A. Dal Corso, M. Civera, L. Belvisi, A. Varrot, S. Mazzotta. - In: JOURNAL OF MEDICINAL CHEMISTRY. - ISSN 1520-4804. - 67:21(2024 Nov 14), pp. 19546-19560. [10.1021/acs.jmedchem.4c01876]
Achieving high affinity for a bacterial lectin with reversible covalent ligands
G. AntoniniPrimo
;A. BernardiSecondo
;A. Dal Corso;M. Civera;L. Belvisi
;S. Mazzotta
Ultimo
2024
Abstract
High-affinity monovalent ligands for lectins are challenging to develop due to weak binding interactions. This study investigates the potential of rationally designed covalent ligands targeting the N-terminal domain of BC2L-C lectin from Burkholderia cenocepacia, a pathogen causing severe respiratory infections in immunocompromised patients. Anti-adhesion therapy is emerging as a complementary approach against such infections and bacterial lectins are suitable targets. The fucose-specific BC2L-C-Nt recognizes blood group oligosaccharides on host cells. Using a computational approach, we designed reversible covalent competitive ligands that include a fucoside anchor and a salicylaldehyde warhead targeting Lys108 near the fucose-binding site. Several candidates were synthesized and tested using competition experiments. The most effective ligand improved the IC50 of methyl-fucoside by two orders of magnitude, matching the affinity of the native H-type 1 trisaccharide. Control experiments confirmed the importance of both fucose anchor and salicylaldehyde moiety in the ligand’s affinity. Mass analysis confirmed covalent interaction with Lys108.
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