Structural insights into Helicobacter pylori oncoprotein CagA interaction with β1 integrin

Infection with the gastric pathogen Helicobacter pylori is a risk factor for the development of gastric cancer. Pathogenic strains of H. pylori carry a type IV secretion system (T4SS) responsible for the injection of the oncoprotein CagA into host cells. H. pylori and its cag -T4SS exploit α5β1 inte...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2012-09, Vol.109 (36), p.14640-14645
Main Authors: Kaplan-Türköz, Burcu, Jiménez-Soto, Luisa F, Dian, Cyril, Ertl, Claudia, Remaut, Han, Louche, Arthur, Tosi, Tommaso, Haas, Rainer, Terradot, Laurent
Format: Article
Language:English
Subjects:
Antigens, Bacterial
Antigens, Bacterial - chemistry
Antigens, Bacterial - genetics
Antigens, Bacterial - metabolism
Antigens, CD29
Bacterial Proteins
Bacterial Proteins - chemistry
Bacterial Proteins - genetics
Bacterial Proteins - metabolism
Bacterial Secretion Systems
Bacterial Secretion Systems - physiology
Biological Sciences
CD29 antigen
cell culture
Cell membranes
Cells
Cloning, Molecular
Crystal structure
Crystals
cytoskeleton
Epithelial cells
Helicobacter pylori
Infections
Integrin beta1 - metabolism
Integrins
Life Sciences
Models, Molecular
Mutagenesis
oncogene proteins
pathogens
Protein Conformation
Protein Transport
Protein Transport - physiology
protein-protein interactions
Proteins
risk factors
Secretion
stomach neoplasms
Two-Hybrid System Techniques
type IV secretion system
virulent strains
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Summary:Infection with the gastric pathogen Helicobacter pylori is a risk factor for the development of gastric cancer. Pathogenic strains of H. pylori carry a type IV secretion system (T4SS) responsible for the injection of the oncoprotein CagA into host cells. H. pylori and its cag -T4SS exploit α5β1 integrin as a receptor for CagA translocation. Injected CagA localizes to the inner leaflet of the host cell membrane, where it hijacks host cell signaling and induces cytoskeleton reorganization. Here we describe the crystal structure of the N-terminal ∼100-kDa subdomain of CagA at 3.6 Å that unveils a unique combination of folds. The core domain of the protein consists of an extended single-layer β-sheet stabilized by two independent helical subdomains. The core is followed by a long helix that forms a four-helix helical bundle with the C-terminal domain. Mapping of conserved regions in a set of CagA sequences identified four conserved surface-exposed patches (CSP1–4), which represent putative hot-spots for protein–protein interactions. The proximal part of the single-layer β-sheet, covering CSP4, is involved in specific binding of CagA to the β1 integrin, as determined by yeast two-hybrid and in vivo competition assays in H. pylori cell-culture infection studies. These data provide a structural basis for the first step of CagA internalization into host cells and suggest that CagA uses a previously undescribed mechanism to bind β1 integrin to mediate its own translocation.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1206098109