Molecules (Jul 2017)

Sites for Dynamic Protein-Carbohydrate Interactions of O- and C-Linked Mannosides on the E. coli FimH Adhesin

  • Mohamed Touaibia,
  • Eva-Maria Krammer,
  • Tze C. Shiao,
  • Nao Yamakawa,
  • Qingan Wang,
  • Anja Glinschert,
  • Alex Papadopoulos,
  • Leila Mousavifar,
  • Emmanuel Maes,
  • Stefan Oscarson,
  • Gerard Vergoten,
  • Marc F. Lensink,
  • René Roy,
  • Julie Bouckaert

DOI
https://doi.org/10.3390/molecules22071101
Journal volume & issue
Vol. 22, no. 7
p. 1101

Abstract

Read online

Antagonists of the Escherichia coli type-1 fimbrial adhesin FimH are recognized as attractive alternatives for antibiotic therapies and prophylaxes against acute and recurrent bacterial infections. In this study α-d-mannopyranosides O- or C-linked with an alkyl, alkene, alkyne, thioalkyl, amide, or sulfonamide were investigated to fit a hydrophobic substituent with up to two aryl groups within the tyrosine gate emerging from the mannose-binding pocket of FimH. The results were summarized into a set of structure-activity relationships to be used in FimH-targeted inhibitor design: alkene linkers gave an improved affinity and inhibitory potential, because of their relative flexibility combined with a favourable interaction with isoleucine-52 located in the middle of the tyrosine gate. Of particular interest is a C-linked mannoside, alkene-linked to an ortho-substituted biphenyl that has an affinity similar to its O-mannosidic analog but superior to its para-substituted analog. Docking of its high-resolution NMR solution structure to the FimH adhesin indicated that its ultimate, ortho-placed phenyl ring is able to interact with isoleucine-13, located in the clamp loop that undergoes conformational changes under shear force exerted on the bacteria. Molecular dynamics simulations confirmed that a subpopulation of the C-mannoside conformers is able to interact in this secondary binding site of FimH.

Keywords