A.S.W. Yuen scite author profile

Vibrio cholerae relies on two main virulence factors, the toxin coregulated pilus (TCP) and cholera toxin, to cause the gastrointestinal disease cholera. TCP is a type IV pilus that mediates bacterial autoagglutination and colonization of the intestine. TCP is encoded by the tcp operon, which also encodes TcpF, a protein of unknown function that is secreted by V. cholerae in a TCP-dependent manner. Although TcpF is not required for TCP biogenesis, a tcpF mutant has a colonization defect in the infant mouse cholera model that is as severe as a pilus mutant. Furthermore, TcpF antisera protects against V. cholerae infection. TcpF has no apparent sequence homology to any known protein. Here we report the de novo x-ray crystal structure of TcpF and the identification of an epitope that is critical for its function as a colonization factor. A monoclonal antibody recognizing this epitope is protective against V. cholerae challenge and adds to the protection provided by an anti-TcpA antibody. These data suggest that TcpF has a novel function in V. cholerae colonization and define a region crucial for this function.

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Structural Characterization of CFA/III and Longus Type IVb Pili from Enterotoxigenic Escherichia coli

Kolappan¹,

Roos²,

Yuen³

et al. 2012

Journal of Bacteriology

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Structure and secretion of CofJ, a putative colonization factor of enterotoxigenic Escherichia coli

Yuen

Kolappan

et al. 2013

Molecular Microbiology

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SummaryEnterotoxigenic Escherichia coli (ETEC) colonize the human gut, causing severe cholera-like diarrhoea. ETEC utilize a diverse array of pili and fimbriae for host colonization, including the Type IVb pilus CFA/III. The CFA/III pilus machinery is encoded on the cof operon, which is similar in gene sequence and synteny to the tcp operon that encodes another Type IVb pilus, the Vibrio cholerae toxin co-regulated pilus (TCP). Both pilus operons possess a syntenic gene encoding a protein of unknown function. In V. cholerae, this protein, TcpF, is a critical colonization factor secreted by the TCP apparatus. Here we show that the corresponding ETEC protein, CofJ, is a soluble protein secreted via the CFA/III apparatus. We present a 2.6 Å resolution crystal structure of CofJ, revealing a large β-sandwich protein that bears no sequence or structural homology to TcpF. CofJ has a cluster of exposed hydrophobic side-chains at one end and structural homology to the pore-forming proteins perfringolysin O and α-haemolysin. CofJ binds to lipid vesicles and epithelial cells, suggesting a role in membrane attachment during ETEC colonization.

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Crystal Structure of the ETEC Secreted Protein CofJ

Craig¹,

Kolappan²,

Yuen³

2013

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Crystal Structure of the C-terminal Domain of the Vibrio cholerae soluble colonization factor TcpF

Craig¹,

Kolappan²,

Yuen³

2011

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A.S.W. Yuen

Crystal Structure of the Vibrio cholerae Colonization Factor TcpF and Identification of a Functional Immunogenic Site

Structural Characterization of CFA/III and Longus Type IVb Pili from Enterotoxigenic Escherichia coli

Structure and secretion of CofJ, a putative colonization factor of enterotoxigenic Escherichia coli

Crystal Structure of the ETEC Secreted Protein CofJ

Crystal Structure of the C-terminal Domain of the Vibrio cholerae soluble colonization factor TcpF

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