A complex LuxR-LuxI type quorum sensing network in a roseobacterial marine sponge symbiont activates flagellar motility and inhibits biofilm formation

A complex LuxR-LuxI type quorum sensing network in a roseobacterial marine sponge symbiont activates flagellar motility and inhibits biofilm formation

Summary Bacteria isolated from marine sponges, including the Silicibacter–Ruegeria (SR) subgroup of the Roseobacter clade, produce N‐acylhomoserine lactone (AHL) quorum sensing signal molecules. This study is the first detailed analysis of AHL quorum sensing in sponge‐associated bacteria, specifical...

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Published in:Molecular microbiology Vol. 85; no. 5; pp. 916 - 933
Main Authors: Zan, Jindong, Cicirelli, Elisha M., Mohamed, Naglaa M., Sibhatu, Hiruy, Kroll, Stephanie, Choi, Okhee, Uhlson, Charis L., Wysoczynski, Christina L., Murphy, Robert C., Churchill, Mair E. A., Hill, Russell T., Fuqua, Clay
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-09-2012
Subjects:
4-Butyrolactone - analogs & derivatives
4-Butyrolactone - metabolism
Animals
Aquatic life
Bacteria
Bacterial Proteins - genetics
Bacterial Proteins - metabolism
Biofilms
Biofilms - growth & development
Biosynthesis
Gene Expression Regulation, Bacterial - genetics
Gene Expression Regulation, Bacterial - physiology
Marine
Microbiology
Motility
Mycale laxissima
Porifera - microbiology
Quorum Sensing - genetics
Quorum Sensing - physiology
Roseobacter
Roseobacter - genetics
Roseobacter - growth & development
Roseobacter - metabolism
Ruegeria
Signal Transduction
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Summary:Summary Bacteria isolated from marine sponges, including the Silicibacter–Ruegeria (SR) subgroup of the Roseobacter clade, produce N‐acylhomoserine lactone (AHL) quorum sensing signal molecules. This study is the first detailed analysis of AHL quorum sensing in sponge‐associated bacteria, specifically Ruegeria sp. KLH11, from the sponge Mycale laxissima. Two pairs of luxR and luxI homologues and one solo luxI homologue were identified and designated ssaRI, ssbRI and sscI (sponge‐associated symbiont locus A, B and C, luxR or luxI homologue). SsaI produced predominantly long‐chain 3‐oxo‐AHLs and both SsbI and SscI specified 3‐OH‐AHLs. Addition of exogenous AHLs to KLH11 increased the expression of ssaI but not ssaR, ssbI or ssbR, and genetic analyses revealed a complex interconnected arrangement between SsaRI and SsbRI systems. Interestingly, flagellar motility was abolished in the ssaI and ssaR mutants, with the flagellar biosynthesis genes under strict SsaRI control, and active motility only at high culture density. Conversely, ssaI and ssaR mutants formed more robust biofilms than wild‐type KLH11. AHLs and the ssaI transcript were detected in M. laxissima extracts, suggesting that AHL signalling contributes to the decision between motility and sessility and that it may also facilitate acclimation to different environments that include the sponge host.
Bibliography:Supporting info item
istex:9C1725E65E3B5B93A642EBCAA64A154F94B43232
ArticleID:MMI8149
ark:/67375/WNG-M9T3BPX2-S
Present addresses: Bio‐Amber Inc., Minneapolis, MN, USA
These authors contributed equally to this work.
Department of Pharmacology, University of California, San Diego, CA, USA
Cayman Chemical Co., Ann Arbor, MI, USA
Gyeongsang National University, Jinju, Korea.
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content type line 23
Current address: Bio-Amber Inc., Minneapolis, MN
Current address: Gyeongsang National University, Jinju, Korea
Current address: Dept. Pharmacol. University of California, San Diego, CA
Current address: Cayman Chemical Co., Ann Arbor, MI
ISSN:0950-382X
1365-2958
DOI:10.1111/j.1365-2958.2012.08149.x