A rapid synthesis of low-nanomolar divalent LecA inhibitors in four linear steps from d-galactose pentaacetate.

Eva Zahorska Sakonwan KuhaudomlarpSaverio MinerviniSultaan YousafMartin LepsikThorsten KinsingerAnna Katharina Herta Hirsch Anne Imberty Alexander Titz

Published in: Chemical communications (Cambridge, England) (2021)

Chronic infections with Pseudomonas aeruginosa are associated with the formation of bacterial biofilms. The tetrameric P. aeruginosa lectin LecA is a virulence factor and an anti-biofilm drug target. Increasing the overall binding affinity by multivalent presentation of binding epitopes can enhance the weak carbohydrate-ligand interactions. Low-nanomolar divalent LecA ligands/inhibitors with up to 260-fold valency-normalized potency boost and excellent selectivity over human galectin-1 were synthesized from d-galactose pentaacetate and benzaldehyde-based linkers in four linear steps.

Keyphrases

pseudomonas aeruginosa
biofilm formation
cystic fibrosis
staphylococcus aureus
candida albicans
endothelial cells
acinetobacter baumannii
escherichia coli
dna binding
binding protein
antimicrobial resistance
neural network
transcription factor
drug resistant
multidrug resistant
adverse drug
structural basis