High Affinity Interaction between a Bivalve C-type Lectin and a Biantennary Complex-type N-Glycan Revealed by Crystallography and Microcalorimetry

Gourdine, Jean-Philippe; Cioci, Gianluca; Miguet, Laurence; Unverzagt, Carlo; Silva, Daniel Varón; Varrot, A.; Gautier, Catherine; Smith-Ravin, Emilie Juliette; Imberty, Anne

doi:10.1074/jbc.m804353200

Cited by 36 publications

(32 citation statements)

References 53 publications

(36 reference statements)

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“…S7, clearly showing that citric acid inhibits glycolipid binding to Mincle, whereas acetic acid does not. Notably, another mannose-binding C-type lectin, codakine, bound similar positions of oxygens of glycerol and glycan in a Ca 2+ ion-mediated manner (26). Citric acid is likely accommodated at this position to block the ligands, and hydroxyl groups are likely used following the coordination of Ca 2+ ions generally observed in CLRs.…”

Section: Discussionmentioning

confidence: 96%

Structural analysis for glycolipid recognition by the C-type lectins Mincle and MCL

Furukawa

Kamishikiryo

Mori

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

150

206

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Mincle [macrophage inducible Ca2+ -dependent (C-type) lectin; CLEC4E] and MCL (macrophage C-type lectin; CLEC4D) are receptors for the cord factor TDM (trehalose-6,6′-dimycolate), a unique glycolipid of mycobacterial cell-surface components, and activate immune cells to confer adjuvant activity. Although it is known that receptor-TDM interactions require both sugar and lipid moieties of TDM, the mechanisms of glycolipid recognition by Mincle and MCL remain unclear. We here report the crystal structures of Mincle, MCL, and the Mincle-citric acid complex. The structures revealed that these receptors are capable of interacting with sugar in a Ca 2+ -dependent manner, as observed in other C-type lectins. However, Mincle and MCL uniquely possess shallow hydrophobic regions found adjacent to their putative sugar binding sites, which reasonably locate for recognition of fatty acid moieties of glycolipids. Functional studies using mutant receptors as well as glycolipid ligands support this deduced binding mode. These results give insight into the molecular mechanism of glycolipid recognition through C-type lectin receptors, which may provide clues to rational design for effective adjuvants.X-ray crystallography | innate immunity | mycobacteria | pattern-recognition receptors | myeloid cells

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Section: Discussionmentioning

confidence: 96%

Structural analysis for glycolipid recognition by the C-type lectins Mincle and MCL

Furukawa

Kamishikiryo

Mori

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

150

206

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“…The first Glc and the branching Gal residues of the outer core bind via Arg H52 and Asn H53, which explains the enhanced affinity observed for oligosaccharides containing an outer core and a branching substitution at position 6 of the first hexose (30). These residues are bound independently of their stereochemistry of ring hydroxyls, which opens the possibility for WN1 222-5 recognition of LPS with other outer core types.…”

mentioning

confidence: 98%

“…Remarkably, WN1 222-5 binds its LPS core epitope even in the presence of O-PS. By using whole LPS and a number of neoglycoconjugates containing core-OS from all E. coli core types, S. enterica, and the mutant strain E. coli J-5 in ELISA binding studies, we previously identified parts of an inner core epitope accessible to high-affinity binding of mAb WN1 222-5 (27), with an affinity orders of magnitude higher than that determined for mAb Se155-4 against Salmonella group B O-PS and most other carbohydrate binding proteins (30).…”

mentioning

confidence: 99%

“…The antigen is forced to adopt a limited number of conformations by the relatively large number of intramolecular hydrogen bonds and steric crowding within the core region (30,33) that are seen in the antibody and in the TLR4-MD-2 complexes (3). Kdo II forms only a weak hydrogen bond to Tyr H99 (which also forms two other hydrogen bonds to the antigen), so its importance to antigen recognition probably comes as a steric impediment to conformational rearrangement of the inner core.…”

mentioning

confidence: 99%

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Antibody WN1 222-5 mimics Toll-like receptor 4 binding in the recognition of LPS

Gomery

Müller‐Loennies

Brooks

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

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Escherichia coli infections, a leading cause of septic shock, remain a major threat to human health because of the fatal action to endotoxin (LPS). Therapeutic attempts to neutralize endotoxin currently focus on inhibiting the interaction of the toxic component lipid A with myeloid differentiating factor 2, which forms a trimeric complex together with Toll-like receptor 4 to induce immune cell activation. The 1.73-Å resolution structure of the unique endotoxin-neutralizing protective antibody WN1 222-5 in complex with the core region shows that it recognizes LPS of all E. coli serovars in a manner similar to Toll-like receptor 4, revealing that protection can be achieved by targeting the inner core of LPS and that recognition of lipid A is not required. Such interference with Tolllike receptor complex formation opens new paths for antibody sepsis therapy independent of lipid A antagonists.

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“…1A, the four carbohydrate-binding sites of the CEL-IV tetramer are oriented apart from one another. Because (23). Although the fold of the CEL-IV protomer resembles the other C-type CRDs, as representatively shown for C. echinata lectin CEL-I (6), tunicate (Polyandrocarpa misakiensis) lectin TC14 (11), and rat mannose-binding lectin MBL (MBP-A) (24) (Fig.…”

Section: Crystallization and Structure Determination Of Cel-iv-mentioning

confidence: 77%

Galactose Recognition by a Tetrameric C-type Lectin, CEL-IV, Containing the EPN Carbohydrate Recognition Motif

Hatakeyama

Kamiya

Kusunoki

et al. 2011

Journal of Biological Chemistry

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CEL-IV is a C-type lectin isolated from a sea cucumber, Cucumaria echinata. This lectin is composed of four identical C-type carbohydrate-recognition domains (CRDs). X-ray crystallographic analysis of CEL-IV revealed that its tetrameric structure was stabilized by multiple interchain disulfide bonds among the subunits. Although CEL-IV has the EPN motif in its carbohydrate-binding sites, which is known to be characteristic of mannose binding C-type CRDs, it showed preferential binding of galactose and N-acetylgalactosamine. Structural analyses of CEL-IV-melibiose and CEL-IV-raffinose complexes revealed that their galactose residues were recognized in an inverted orientation compared with mannose binding C-type CRDs containing the EPN motif, by the aid of a stacking interaction with the side chain of Trp-79. Changes in the environment of Trp-79 induced by binding to galactose were detected by changes in the intrinsic fluorescence and UV absorption spectra of WT CEL-IV and its site-directed mutants. The binding specificity of CEL-IV toward complex oligosaccharides was analyzed by frontal affinity chromatography using various pyridylamino sugars, and the results indicate preferential binding to oligosaccharides containing Gal␤1-3/4(Fuc␣1-3/4)GlcNAc structures. These findings suggest that the specificity for oligosaccharides may be largely affected by interactions with amino acid residues in the binding site other than those determining the monosaccharide specificity.

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High Affinity Interaction between a Bivalve C-type Lectin and a Biantennary Complex-type N-Glycan Revealed by Crystallography and Microcalorimetry

Cited by 36 publications

References 53 publications

Structural analysis for glycolipid recognition by the C-type lectins Mincle and MCL

Structural analysis for glycolipid recognition by the C-type lectins Mincle and MCL

Antibody WN1 222-5 mimics Toll-like receptor 4 binding in the recognition of LPS

Galactose Recognition by a Tetrameric C-type Lectin, CEL-IV, Containing the EPN Carbohydrate Recognition Motif

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