Role of Heat Shock Proteases in Quorum-Sensing-Mediated Regulation of Biofilm Formation by Vibrio Species

Role of Heat Shock Proteases in Quorum-Sensing-Mediated Regulation of Biofilm Formation by Vibrio Species

Capsular polysaccharide (CPS) is essential for the dispersal of biofilms formed by the pathogenic bacterium Vibrio vulnificus. CPS production is induced by the quorum-sensing (QS) master regulator SmcR when biofilms mature. However, V. vulnificus biofilms formed under heat shock conditions did not e...

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Main Authors: Kyung-Jo Lee, You-Chul Jung, Soon-Jung Park, Kyu-Ho Lee, Fitnat H. Yildiz, E. Peter Greenberg
Format: Article
Language:English
Published: American Society for Microbiology 2018-01-01
Series:mBio
Online Access:http://mbio.asm.org/cgi/content/full/9/1/e02086-17
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spelling doaj-c072f724fbd747f3ab9bf61ab43ee6192021-07-02T08:56:55ZengAmerican Society for MicrobiologymBio2150-75112018-01-0191e02086-1710.1128/mBio.02086-17Role of Heat Shock Proteases in Quorum-Sensing-Mediated Regulation of Biofilm Formation by Vibrio SpeciesKyung-Jo LeeYou-Chul JungSoon-Jung ParkKyu-Ho LeeFitnat H. YildizE. Peter GreenbergCapsular polysaccharide (CPS) is essential for the dispersal of biofilms formed by the pathogenic bacterium Vibrio vulnificus. CPS production is induced by the quorum-sensing (QS) master regulator SmcR when biofilms mature. However, V. vulnificus biofilms formed under heat shock conditions did not exhibit the dispersion stage. Transcripts of the CPS gene cluster were at basal levels in the heat-exposed cell owing to reduced cellular levels of SmcR. At least two proteases induced by heat shock, ClpPA and Lon, were responsible for determining the instability of SmcR. In vitro and in vivo assays demonstrated that SmcR levels were regulated via proteolysis by these proteases, with preferential proteolysis of monomeric SmcR. Thus, CPS production was not induced by QS when bacteria were heat treated. Further studies performed with other Vibrio species demonstrated that high temperature deactivated the QS circuits by increased proteolysis of their QS master regulators, thus resulting in alterations to the QS-regulated phenotypes, including biofilm formation.http://mbio.asm.org/cgi/content/full/9/1/e02086-17
collection DOAJ
language English
format Article
sources DOAJ
author Kyung-Jo Lee
You-Chul Jung
Soon-Jung Park
Kyu-Ho Lee
Fitnat H. Yildiz
E. Peter Greenberg
spellingShingle Kyung-Jo Lee
You-Chul Jung
Soon-Jung Park
Kyu-Ho Lee
Fitnat H. Yildiz
E. Peter Greenberg
Role of Heat Shock Proteases in Quorum-Sensing-Mediated Regulation of Biofilm Formation by Vibrio Species
mBio
author_facet Kyung-Jo Lee
You-Chul Jung
Soon-Jung Park
Kyu-Ho Lee
Fitnat H. Yildiz
E. Peter Greenberg
author_sort Kyung-Jo Lee
title Role of Heat Shock Proteases in Quorum-Sensing-Mediated Regulation of Biofilm Formation by Vibrio Species
title_short Role of Heat Shock Proteases in Quorum-Sensing-Mediated Regulation of Biofilm Formation by Vibrio Species
title_full Role of Heat Shock Proteases in Quorum-Sensing-Mediated Regulation of Biofilm Formation by Vibrio Species
title_fullStr Role of Heat Shock Proteases in Quorum-Sensing-Mediated Regulation of Biofilm Formation by Vibrio Species
title_full_unstemmed Role of Heat Shock Proteases in Quorum-Sensing-Mediated Regulation of Biofilm Formation by Vibrio Species
title_sort role of heat shock proteases in quorum-sensing-mediated regulation of biofilm formation by vibrio species
publisher American Society for Microbiology
series mBio
issn 2150-7511
publishDate 2018-01-01
description Capsular polysaccharide (CPS) is essential for the dispersal of biofilms formed by the pathogenic bacterium Vibrio vulnificus. CPS production is induced by the quorum-sensing (QS) master regulator SmcR when biofilms mature. However, V. vulnificus biofilms formed under heat shock conditions did not exhibit the dispersion stage. Transcripts of the CPS gene cluster were at basal levels in the heat-exposed cell owing to reduced cellular levels of SmcR. At least two proteases induced by heat shock, ClpPA and Lon, were responsible for determining the instability of SmcR. In vitro and in vivo assays demonstrated that SmcR levels were regulated via proteolysis by these proteases, with preferential proteolysis of monomeric SmcR. Thus, CPS production was not induced by QS when bacteria were heat treated. Further studies performed with other Vibrio species demonstrated that high temperature deactivated the QS circuits by increased proteolysis of their QS master regulators, thus resulting in alterations to the QS-regulated phenotypes, including biofilm formation.
url http://mbio.asm.org/cgi/content/full/9/1/e02086-17
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