The Vibrio cholerae Minor Pilin TcpB Initiates Assembly and Retraction of the Toxin-Coregulated Pilus

Type IV pilus (T4P) systems are complex molecular machines that polymerize major pilin proteins into thin filaments displayed on bacterial surfaces. Pilus functions require rapid extension and depolymerization of the pilus, powered by the assembly and retraction ATPases, respectively. A set of low a...

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Autores principales: Ng, Dixon, Harn, Tony, Altindal, Tuba, Kolappan, Subramania, Marles, Jarrad M., Lala, Rajan, Spielman, Ingrid, Gao, Yang, Hauke, Caitlyn A., Kovacikova, Gabriela, Verjee, Zia, Taylor, Ronald K., Biais, Nicolas, Craig, Lisa
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2016
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5207764/
https://www.ncbi.nlm.nih.gov/pubmed/27992883
http://dx.doi.org/10.1371/journal.ppat.1006109
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author Ng, Dixon
Harn, Tony
Altindal, Tuba
Kolappan, Subramania
Marles, Jarrad M.
Lala, Rajan
Spielman, Ingrid
Gao, Yang
Hauke, Caitlyn A.
Kovacikova, Gabriela
Verjee, Zia
Taylor, Ronald K.
Biais, Nicolas
Craig, Lisa
author_facet Ng, Dixon
Harn, Tony
Altindal, Tuba
Kolappan, Subramania
Marles, Jarrad M.
Lala, Rajan
Spielman, Ingrid
Gao, Yang
Hauke, Caitlyn A.
Kovacikova, Gabriela
Verjee, Zia
Taylor, Ronald K.
Biais, Nicolas
Craig, Lisa
author_sort Ng, Dixon
collection PubMed
description Type IV pilus (T4P) systems are complex molecular machines that polymerize major pilin proteins into thin filaments displayed on bacterial surfaces. Pilus functions require rapid extension and depolymerization of the pilus, powered by the assembly and retraction ATPases, respectively. A set of low abundance minor pilins influences pilus dynamics by unknown mechanisms. The Vibrio cholerae toxin-coregulated pilus (TCP) is among the simplest of the T4P systems, having a single minor pilin TcpB and lacking a retraction ATPase. Here we show that TcpB, like its homolog CofB, initiates pilus assembly. TcpB co-localizes with the pili but at extremely low levels, equivalent to one subunit per pilus. We used a micropillars assay to demonstrate that TCP are retractile despite the absence of a retraction ATPase, and that retraction relies on TcpB, as a V. cholerae tcpB Glu5Val mutant is fully piliated but does not induce micropillars movements. This mutant is impaired in TCP-mediated autoagglutination and TcpF secretion, consistent with retraction being required for these functions. We propose that TcpB initiates pilus retraction by incorporating into the growing pilus in a Glu5-dependent manner, which stalls assembly and triggers processive disassembly. These results provide a framework for understanding filament dynamics in more complex T4P systems and the closely related Type II secretion system.
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spelling pubmed-52077642017-01-19 The Vibrio cholerae Minor Pilin TcpB Initiates Assembly and Retraction of the Toxin-Coregulated Pilus Ng, Dixon Harn, Tony Altindal, Tuba Kolappan, Subramania Marles, Jarrad M. Lala, Rajan Spielman, Ingrid Gao, Yang Hauke, Caitlyn A. Kovacikova, Gabriela Verjee, Zia Taylor, Ronald K. Biais, Nicolas Craig, Lisa PLoS Pathog Research Article Type IV pilus (T4P) systems are complex molecular machines that polymerize major pilin proteins into thin filaments displayed on bacterial surfaces. Pilus functions require rapid extension and depolymerization of the pilus, powered by the assembly and retraction ATPases, respectively. A set of low abundance minor pilins influences pilus dynamics by unknown mechanisms. The Vibrio cholerae toxin-coregulated pilus (TCP) is among the simplest of the T4P systems, having a single minor pilin TcpB and lacking a retraction ATPase. Here we show that TcpB, like its homolog CofB, initiates pilus assembly. TcpB co-localizes with the pili but at extremely low levels, equivalent to one subunit per pilus. We used a micropillars assay to demonstrate that TCP are retractile despite the absence of a retraction ATPase, and that retraction relies on TcpB, as a V. cholerae tcpB Glu5Val mutant is fully piliated but does not induce micropillars movements. This mutant is impaired in TCP-mediated autoagglutination and TcpF secretion, consistent with retraction being required for these functions. We propose that TcpB initiates pilus retraction by incorporating into the growing pilus in a Glu5-dependent manner, which stalls assembly and triggers processive disassembly. These results provide a framework for understanding filament dynamics in more complex T4P systems and the closely related Type II secretion system. Public Library of Science 2016-12-19 /pmc/articles/PMC5207764/ /pubmed/27992883 http://dx.doi.org/10.1371/journal.ppat.1006109 Text en © 2016 Ng et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Ng, Dixon
Harn, Tony
Altindal, Tuba
Kolappan, Subramania
Marles, Jarrad M.
Lala, Rajan
Spielman, Ingrid
Gao, Yang
Hauke, Caitlyn A.
Kovacikova, Gabriela
Verjee, Zia
Taylor, Ronald K.
Biais, Nicolas
Craig, Lisa
The Vibrio cholerae Minor Pilin TcpB Initiates Assembly and Retraction of the Toxin-Coregulated Pilus
title The Vibrio cholerae Minor Pilin TcpB Initiates Assembly and Retraction of the Toxin-Coregulated Pilus
title_full The Vibrio cholerae Minor Pilin TcpB Initiates Assembly and Retraction of the Toxin-Coregulated Pilus
title_fullStr The Vibrio cholerae Minor Pilin TcpB Initiates Assembly and Retraction of the Toxin-Coregulated Pilus
title_full_unstemmed The Vibrio cholerae Minor Pilin TcpB Initiates Assembly and Retraction of the Toxin-Coregulated Pilus
title_short The Vibrio cholerae Minor Pilin TcpB Initiates Assembly and Retraction of the Toxin-Coregulated Pilus
title_sort vibrio cholerae minor pilin tcpb initiates assembly and retraction of the toxin-coregulated pilus
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5207764/
https://www.ncbi.nlm.nih.gov/pubmed/27992883
http://dx.doi.org/10.1371/journal.ppat.1006109
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