Afficher la couverture 'The unique 3D arrangement of macrophage galactose lectin enables Escherichia coli lipopolysaccharide recognition through two distinct interfaces | Abbas, Massilia' en grand format
/5

0 avis

The unique 3D arrangement of macrophage galactose lectin enables Escherichia coli lipopolysaccharide recognition through two distinct interfaces

Archive ouverte

Abbas, Massilia | Maalej, Meriem | Nieto-Fabregat, Ferran | Thépaut, Michel | Kleman, Jean-Philippe | Ayala, Isabel | Molinaro, Antonio | Simorre, Jean-Pierre | Marchetti, Roberta | Fieschi, Franck | Laguri, Cedric

Edité par CCSD ; Oxford University Press -

International audience. Lipopolysaccharides are a hallmark of gram-negative bacteria, and their presence at the cell surface is key for bacterial integrity. As surface-exposed components, they are recognized by immunity C-type lectin receptors present on antigen-presenting cells. Human macrophage galactose lectin binds Escherichia coli surface that presents a specific glycan motif. Nevertheless, this high-affinity interaction occurs regardless of the integrity of its canonical calcium-dependent glycan-binding site. NMR of macrophage galactose-type lectin (MGL) carbohydrate recognition domain and complete extracellular domain revealed a glycan-binding site opposite to the canonical site. A model of trimeric macrophage galactose lectin was determined based on a combination of small-angle X-ray scattering and AlphaFold. A disulfide bond positions the carbohydrate recognition domain perpendicular to the coiled-coil domain. This unique configuration for a C-type lectin orients the six glycan sites of MGL in an ideal position to bind lipopolysaccharides at the bacterial surface with high avidity.

Suggestions

Du même auteur

The human macrophage galactose‐type lectin, MGL, recognizes the outer core of E. coli lipooligosaccharide

Archive ouverte | Maalej, Meriem | CCSD

International audience. Carbohydrate-lectin interactions intervene in and mediate most biological processes, including a crucial modulation of immune responses to pathogens. Despite the growing interest in investiga...

Atomic-Level Dissection of DC-SIGN Recognition of Bacteroides vulgatus LPS Epitopes

Archive ouverte | Nieto-Fabregat, Ferran | CCSD

International audience. The evaluation of Bacteroides vulgatus mpk (BVMPK) lipopolysaccharide (LPS) recognition by DC-SIGN, a key lectin in mediating immune homeostasis, has been here performed. A fine chemical diss...

LptB 2 FG is an ABC transporter with Adenylate Kinase activity regulated by LptC/A recruitment

Archive ouverte | Baeta, Tiago | CCSD

ABSTRACT L ipo p oly s accharide (LPS) is an essential glycolipid covering the surface of gram-negative bacteria. Its transport involves a dedicated 7 protein transporter system, the Lpt machinery, that physically spans the entire...

Chargement des enrichissements...