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The Helicobacter pylori adhesin protein HopQ exploits the dimer interface of human CEACAMs to facilitate translocation of the oncoprotein CagA.


ABSTRACT: Helicobacter pylori infects half of the world's population, and strains that encode the cag type IV secretion system for injection of the oncoprotein CagA into host gastric epithelial cells are associated with elevated levels of cancer. CagA translocation into host cells is dependent on interactions between the H. pylori adhesin protein HopQ and human CEACAMs. Here, we present high-resolution structures of several HopQ-CEACAM complexes and CEACAMs in their monomeric and dimeric forms establishing that HopQ uses a coupled folding and binding mechanism to engage the canonical CEACAM dimerization interface for CEACAM recognition. By combining mutagenesis with biophysical and functional analyses, we show that the modes of CEACAM recognition by HopQ and CEACAMs themselves are starkly different. Our data describe precise molecular mechanisms by which microbes exploit host CEACAMs for infection and enable future development of novel oncoprotein translocation inhibitors and H. pylori-specific antimicrobial agents.

SUBMITTER: Bonsor DA 

PROVIDER: S-EPMC6028028 | biostudies-literature | 2018 Jul

REPOSITORIES: biostudies-literature

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The <i>Helicobacter pylori</i> adhesin protein HopQ exploits the dimer interface of human CEACAMs to facilitate translocation of the oncoprotein CagA.

Bonsor Daniel A DA   Zhao Qing Q   Schmidinger Barbara B   Weiss Evelyn E   Wang Jingheng J   Deredge Daniel D   Beadenkopf Robert R   Dow Blaine B   Fischer Wolfgang W   Beckett Dorothy D   Wintrode Patrick L PL   Haas Rainer R   Sundberg Eric J EJ  

The EMBO journal 20180503 13


<i>Helicobacter pylori</i> infects half of the world's population, and strains that encode the <i>cag</i> type IV secretion system for injection of the oncoprotein CagA into host gastric epithelial cells are associated with elevated levels of cancer. CagA translocation into host cells is dependent on interactions between the <i>H. pylori</i> adhesin protein HopQ and human CEACAMs. Here, we present high-resolution structures of several HopQ-CEACAM complexes and CEACAMs in their monomeric and dime  ...[more]

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