Lorenz Chatwell scite author profile

Pathogenic bacteria have developed complex and diverse virulence mechanisms that weaken or disable the host immune defense system. IdeS (IgG-degrading enzyme of Streptococcus pyogenes) is a secreted cysteine endopeptidase from the human pathogen S. pyogenes with an extraordinarily high degree of substrate specificity, catalyzing a single proteolytic cleavage at the lower hinge of human IgG. This proteolytic degradation promotes inhibition of opsonophagocytosis and interferes with the killing of group A Streptococcus. We have determined the crystal structure of the catalytically inactive mutant IdeS-C94S by x-ray crystallography at 1.9-Å resolution. Despite negligible sequence homology to known proteinases, the core of the structure resembles the canonical papain fold although with major insertions and a distinct substrate-binding site. Therefore IdeS belongs to a unique family within the CA clan of cysteine proteinases. Based on analogy with inhibitor complexes of papain-like proteinases, we propose a model for substrate binding by IdeS.Streptococcus pyogenes ͉ Mac-1

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The carbohydrate recognition domain of Langerin reveals high structural similarity with the one of DC-SIGN but an additional, calcium-independent sugar-binding site

Chatwell

Holla

Kaufer

et al. 2008

Molecular Immunology

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A new crystal form of human tear lipocalin reveals high flexibility in the loop region and induced fit in the ligand cavity

Breustedt

Chatwell

Skerra

2009

Acta Crystallogr D Biol Crystallogr

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Tear lipocalin (TLC) with the bound artificial ligand 1,4-butanediol has been crystallized in space group P2(1) with four protein molecules in the asymmetric unit and its X-ray structure has been solved at 2.6 A resolution. TLC is a member of the lipocalin family that binds ligands with diverse chemical structures, such as fatty acids, phospholipids and cholesterol as well as microbial siderophores and the antibiotic rifampin. Previous X-ray structural analysis of apo TLC crystallized in space group C2 revealed a rather large bifurcated ligand pocket and a partially disordered loop region at the entrace to the cavity. Analysis of the P2(1) crystal form uncovered major conformational changes (i) in beta-strands B, C and D, (ii) in loops 1, 2 and 4 at the open end of the beta-barrel and (iii) in the extended C-terminal segment, which is attached to the beta-barrel via a disulfide bridge. The structural comparison indicates high conformational plasticity of the loop region as well as of deeper parts of the ligand pocket, thus allowing adaptation to ligands that differ vastly in size and shape. This illustrates a mechanism for promiscuity in ligand recognition which may also be relevant for some other physiologically important members of the lipocalin protein family.

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An engineered lipocalin specific for CTLA-4 reveals a combining site with structural and conformational features similar to antibodies

Schonfeld

Matschiner²,

Chatwell

et al. 2009

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

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Lorenz Chatwell

Structure of the streptococcal endopeptidase IdeS, a cysteine proteinase with strict specificity for IgG

The carbohydrate recognition domain of Langerin reveals high structural similarity with the one of DC-SIGN but an additional, calcium-independent sugar-binding site

A new crystal form of human tear lipocalin reveals high flexibility in the loop region and induced fit in the ligand cavity

An engineered lipocalin specific for CTLA-4 reveals a combining site with structural and conformational features similar to antibodies

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