Socially mediated induction and suppression of antibiosis during bacterial coexistence

Monica I. Abrudan; Fokko Smakman; Ard Jan Grimbergen; Sanne Westhoff; Eric L. Miller; Gilles P. van Wezel; Daniel E. Rozen

doi:10.1073/pnas.1504076112

Socially mediated induction and suppression of antibiosis during bacterial coexistence

Monica I. Abrudan, Fokko Smakman, Ard Jan Grimbergen, Sanne Westhoff, Eric L. Miller, Gilles P. van Wezel, Daniel E. Rozen

NIOO - Microbial Ecology (ME)

Onderzoeksoutput: Bijdrage aan wetenschappelijk tijdschrift/periodieke uitgave › Artikel › Wetenschappelijk › peer review

177 Citaten (Scopus)

279 Downloads (Pure)

Samenvatting

Despite their importance for humans, there is little consensus on the function of antibiotics in nature for the bacteria that produce them. Classical explanations suggest that bacteria use antibiotics as weapons to kill or inhibit competitors, whereas a recent alternative hypothesis states that antibiotics are signals that coordinate cooperative social interactions between coexisting bacteria. Here we distinguish these hypotheses in the prolific antibiotic-producing genus Streptomyces and provide strong evidence that antibiotics are weapons whose expression is significantly influenced by social and competitive interactions between competing strains. We show that cells induce facultative responses to cues produced by competitors by (i) increasing their own antibiotic production, thereby decreasing costs associated with constitutive synthesis of these expensive products, and (ii) by suppressing antibiotic production in competitors, thereby reducing direct threats to themselves. These results thus show that although antibiotic production is profoundly social, it is emphatically not cooperative. Using computer simulations, we next show that these facultative strategies can facilitate the maintenance of biodiversity in a community context by converting lethal interactions between neighboring colonies to neutral interactions where neither strain excludes the other. Thus, just as bacteriocins can lead to increased diversity via rock–paper–scissors dynamics, so too can antibiotics via elicitation and suppression. Our results reveal that social interactions are crucial for understanding antibiosis and bacterial community dynamics, and highlight the potential of interbacterial interactions for novel drug discovery by eliciting pathways that mediate interference competition.

Originele taal-2	Engels
Pagina's (van-tot)	11054-11059
Tijdschrift	Proceedings of the National Academy of Sciences of the United States of America
Volume	112
Nummer van het tijdschrift	5
DOI's	https://doi.org/10.1073/pnas.1504076112
Status	Gepubliceerd - 2015

Toegang tot document

10.1073/pnas.1504076112

5903_Abrudan
Freely available online through the PNAS open access option
Final published version, 1,18 MB

Citeer dit

@article{e9091b5e533745708e67a9fd939bbf52,

title = "Socially mediated induction and suppression of antibiosis during bacterial coexistence",

abstract = "Despite their importance for humans, there is little consensus on the function of antibiotics in nature for the bacteria that produce them. Classical explanations suggest that bacteria use antibiotics as weapons to kill or inhibit competitors, whereas a recent alternative hypothesis states that antibiotics are signals that coordinate cooperative social interactions between coexisting bacteria. Here we distinguish these hypotheses in the prolific antibiotic-producing genus Streptomyces and provide strong evidence that antibiotics are weapons whose expression is significantly influenced by social and competitive interactions between competing strains. We show that cells induce facultative responses to cues produced by competitors by (i) increasing their own antibiotic production, thereby decreasing costs associated with constitutive synthesis of these expensive products, and (ii) by suppressing antibiotic production in competitors, thereby reducing direct threats to themselves. These results thus show that although antibiotic production is profoundly social, it is emphatically not cooperative. Using computer simulations, we next show that these facultative strategies can facilitate the maintenance of biodiversity in a community context by converting lethal interactions between neighboring colonies to neutral interactions where neither strain excludes the other. Thus, just as bacteriocins can lead to increased diversity via rock–paper–scissors dynamics, so too can antibiotics via elicitation and suppression. Our results reveal that social interactions are crucial for understanding antibiosis and bacterial community dynamics, and highlight the potential of interbacterial interactions for novel drug discovery by eliciting pathways that mediate interference competition.",

keywords = "national",

author = "Abrudan, {Monica I.} and Fokko Smakman and Grimbergen, {Ard Jan} and Sanne Westhoff and Miller, {Eric L.} and {van Wezel}, {Gilles P.} and Rozen, {Daniel E.}",

note = "5903, ME; Data archiving: Property of and archived at IBL Leiden ",

year = "2015",

doi = "10.1073/pnas.1504076112",

language = "English",

volume = "112",

pages = "11054--11059",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

publisher = "National Academy of Sciences",

number = "5",

}

Socially mediated induction and suppression of antibiosis during bacterial coexistence. / Abrudan, Monica I.; Smakman, Fokko; Grimbergen, Ard Jan et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 112, Nr. 5, 2015, blz. 11054-11059.

Onderzoeksoutput: Bijdrage aan wetenschappelijk tijdschrift/periodieke uitgave › Artikel › Wetenschappelijk › peer review

TY - JOUR

T1 - Socially mediated induction and suppression of antibiosis during bacterial coexistence

AU - Abrudan, Monica I.

AU - Smakman, Fokko

AU - Grimbergen, Ard Jan

AU - Westhoff, Sanne

AU - Miller, Eric L.

AU - van Wezel, Gilles P.

AU - Rozen, Daniel E.

N1 - 5903, ME; Data archiving: Property of and archived at IBL Leiden

PY - 2015

Y1 - 2015

N2 - Despite their importance for humans, there is little consensus on the function of antibiotics in nature for the bacteria that produce them. Classical explanations suggest that bacteria use antibiotics as weapons to kill or inhibit competitors, whereas a recent alternative hypothesis states that antibiotics are signals that coordinate cooperative social interactions between coexisting bacteria. Here we distinguish these hypotheses in the prolific antibiotic-producing genus Streptomyces and provide strong evidence that antibiotics are weapons whose expression is significantly influenced by social and competitive interactions between competing strains. We show that cells induce facultative responses to cues produced by competitors by (i) increasing their own antibiotic production, thereby decreasing costs associated with constitutive synthesis of these expensive products, and (ii) by suppressing antibiotic production in competitors, thereby reducing direct threats to themselves. These results thus show that although antibiotic production is profoundly social, it is emphatically not cooperative. Using computer simulations, we next show that these facultative strategies can facilitate the maintenance of biodiversity in a community context by converting lethal interactions between neighboring colonies to neutral interactions where neither strain excludes the other. Thus, just as bacteriocins can lead to increased diversity via rock–paper–scissors dynamics, so too can antibiotics via elicitation and suppression. Our results reveal that social interactions are crucial for understanding antibiosis and bacterial community dynamics, and highlight the potential of interbacterial interactions for novel drug discovery by eliciting pathways that mediate interference competition.

AB - Despite their importance for humans, there is little consensus on the function of antibiotics in nature for the bacteria that produce them. Classical explanations suggest that bacteria use antibiotics as weapons to kill or inhibit competitors, whereas a recent alternative hypothesis states that antibiotics are signals that coordinate cooperative social interactions between coexisting bacteria. Here we distinguish these hypotheses in the prolific antibiotic-producing genus Streptomyces and provide strong evidence that antibiotics are weapons whose expression is significantly influenced by social and competitive interactions between competing strains. We show that cells induce facultative responses to cues produced by competitors by (i) increasing their own antibiotic production, thereby decreasing costs associated with constitutive synthesis of these expensive products, and (ii) by suppressing antibiotic production in competitors, thereby reducing direct threats to themselves. These results thus show that although antibiotic production is profoundly social, it is emphatically not cooperative. Using computer simulations, we next show that these facultative strategies can facilitate the maintenance of biodiversity in a community context by converting lethal interactions between neighboring colonies to neutral interactions where neither strain excludes the other. Thus, just as bacteriocins can lead to increased diversity via rock–paper–scissors dynamics, so too can antibiotics via elicitation and suppression. Our results reveal that social interactions are crucial for understanding antibiosis and bacterial community dynamics, and highlight the potential of interbacterial interactions for novel drug discovery by eliciting pathways that mediate interference competition.

KW - national

U2 - 10.1073/pnas.1504076112

DO - 10.1073/pnas.1504076112

M3 - Article

SN - 0027-8424

VL - 112

SP - 11054

EP - 11059

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 5

ER -

Socially mediated induction and suppression of antibiosis during bacterial coexistence

Samenvatting

Toegang tot document

Vingerafdruk

Citeer dit