Kin selection, quorum sensing and virulence in pathogenic bacteria

Kendra P Rumbaugh; Urvish Trivedi; Chase Watters; Maxwell N Burton-Chellew; Stephen P Diggle; Stuart A West

doi:10.1098/rspb.2012.0843

Kin selection, quorum sensing and virulence in pathogenic bacteria

Kendra P Rumbaugh, Urvish Trivedi, Chase Watters, Maxwell N Burton-Chellew, Stephen P Diggle, Stuart A West

Microbiology

52 Citations (Scopus)

Abstract

Bacterial growth and virulence often depends upon the cooperative release of extracellular factors excreted in response to quorum sensing (QS). We carried out an in vivo selection experiment in mice to examine how QS evolves in response to variation in relatedness (strain diversity), and the consequences for virulence. We started our experiment with two bacterial strains: a wild-type that both produces and responds to QS signal molecules, and a lasR (signal-blind) mutant that does not release extracellular factors in response to signal. We found that: (i) QS leads to greater growth within hosts; (ii) high relatedness favours the QS wild-type; and (iii) low relatedness favours the lasR mutant. Relatedness matters in our experiment because, at relatively low relatedness, the lasR mutant is able to exploit the extracellular factors produced by the cells that respond to QS, and hence increase in frequency. Furthermore, our results suggest that because a higher relatedness favours cooperative QS, and hence leads to higher growth, this will also lead to a higher virulence, giving a relationship between relatedness and virulence that is in the opposite direction to that usually predicted by virulence theory.

Original language	English
Journal	Proceedings of the Royal Society B: Biological Sciences
Volume	279
Issue number	1742
Pages (from-to)	3584-8
Number of pages	5
ISSN	0962-8452
DOIs	https://doi.org/10.1098/rspb.2012.0843
Publication status	Published - 7 Sept 2012

Keywords

Animals
Bacterial Proteins/genetics
Female
Liver/microbiology
Mice
Pseudomonas Infections/microbiology
Pseudomonas aeruginosa/genetics
Quorum Sensing
Selection, Genetic
Skin/microbiology
Trans-Activators/genetics
Virulence
Wounds and Injuries/microbiology

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rspb.2012.0843Final published version, 299 KBLicence: CC BY

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title = "Kin selection, quorum sensing and virulence in pathogenic bacteria",

abstract = "Bacterial growth and virulence often depends upon the cooperative release of extracellular factors excreted in response to quorum sensing (QS). We carried out an in vivo selection experiment in mice to examine how QS evolves in response to variation in relatedness (strain diversity), and the consequences for virulence. We started our experiment with two bacterial strains: a wild-type that both produces and responds to QS signal molecules, and a lasR (signal-blind) mutant that does not release extracellular factors in response to signal. We found that: (i) QS leads to greater growth within hosts; (ii) high relatedness favours the QS wild-type; and (iii) low relatedness favours the lasR mutant. Relatedness matters in our experiment because, at relatively low relatedness, the lasR mutant is able to exploit the extracellular factors produced by the cells that respond to QS, and hence increase in frequency. Furthermore, our results suggest that because a higher relatedness favours cooperative QS, and hence leads to higher growth, this will also lead to a higher virulence, giving a relationship between relatedness and virulence that is in the opposite direction to that usually predicted by virulence theory.",

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author = "Rumbaugh, {Kendra P} and Urvish Trivedi and Chase Watters and Burton-Chellew, {Maxwell N} and Diggle, {Stephen P} and West, {Stuart A}",

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T1 - Kin selection, quorum sensing and virulence in pathogenic bacteria

AU - Rumbaugh, Kendra P

AU - Trivedi, Urvish

AU - Watters, Chase

AU - Burton-Chellew, Maxwell N

AU - Diggle, Stephen P

AU - West, Stuart A

PY - 2012/9/7

Y1 - 2012/9/7

N2 - Bacterial growth and virulence often depends upon the cooperative release of extracellular factors excreted in response to quorum sensing (QS). We carried out an in vivo selection experiment in mice to examine how QS evolves in response to variation in relatedness (strain diversity), and the consequences for virulence. We started our experiment with two bacterial strains: a wild-type that both produces and responds to QS signal molecules, and a lasR (signal-blind) mutant that does not release extracellular factors in response to signal. We found that: (i) QS leads to greater growth within hosts; (ii) high relatedness favours the QS wild-type; and (iii) low relatedness favours the lasR mutant. Relatedness matters in our experiment because, at relatively low relatedness, the lasR mutant is able to exploit the extracellular factors produced by the cells that respond to QS, and hence increase in frequency. Furthermore, our results suggest that because a higher relatedness favours cooperative QS, and hence leads to higher growth, this will also lead to a higher virulence, giving a relationship between relatedness and virulence that is in the opposite direction to that usually predicted by virulence theory.

AB - Bacterial growth and virulence often depends upon the cooperative release of extracellular factors excreted in response to quorum sensing (QS). We carried out an in vivo selection experiment in mice to examine how QS evolves in response to variation in relatedness (strain diversity), and the consequences for virulence. We started our experiment with two bacterial strains: a wild-type that both produces and responds to QS signal molecules, and a lasR (signal-blind) mutant that does not release extracellular factors in response to signal. We found that: (i) QS leads to greater growth within hosts; (ii) high relatedness favours the QS wild-type; and (iii) low relatedness favours the lasR mutant. Relatedness matters in our experiment because, at relatively low relatedness, the lasR mutant is able to exploit the extracellular factors produced by the cells that respond to QS, and hence increase in frequency. Furthermore, our results suggest that because a higher relatedness favours cooperative QS, and hence leads to higher growth, this will also lead to a higher virulence, giving a relationship between relatedness and virulence that is in the opposite direction to that usually predicted by virulence theory.

KW - Animals

KW - Bacterial Proteins/genetics

KW - Female

KW - Liver/microbiology

KW - Mice

KW - Pseudomonas Infections/microbiology

KW - Pseudomonas aeruginosa/genetics

KW - Quorum Sensing

KW - Selection, Genetic

KW - Skin/microbiology

KW - Trans-Activators/genetics

KW - Virulence

KW - Wounds and Injuries/microbiology

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DO - 10.1098/rspb.2012.0843

M3 - Journal article

C2 - 22648154

SN - 0962-8452

VL - 279

SP - 3584

EP - 3588

JO - Proceedings of the Royal Society B: Biological Sciences

JF - Proceedings of the Royal Society B: Biological Sciences

IS - 1742

ER -

Kin selection, quorum sensing and virulence in pathogenic bacteria

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Keywords

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