Mutational and non mutational adaptation of Salmonella enterica to the gall bladder

Verónica Urdaneta,Josep Casadesús,Sara B Hernández

doi:10.1038/s41598-019-41600-8

Verónica Urdaneta, Josep Casadesús + Show 1 more

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https://doi.org/10.1038/s41598-019-41600-8

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Journal: Scientific Reports	Publication Date: Mar 26, 2019
Citations: 10	License type: open-access

Affiliation: Universidad de Sevilla, Umeå University

Abstract

During systemic infection of susceptible hosts, Salmonella enterica colonizes the gall bladder, which contains lethal concentrations of bile salts. Recovery of Salmonella cells from the gall bladder of infected mice yields two types of isolates: (i) bile-resistant mutants; (ii) isolates that survive lethal selection without mutation. Bile-resistant mutants are recovered at frequencies high enough to suggest that increased mutation rates may occur in the gall bladder, thus providing a tentative example of stress-induced mutation in a natural environment. However, most bile-resistant mutants characterized in this study show defects in traits that are relevant for Salmonella colonization of the animal host. Mutation may thus permit short-term adaptation to the gall bladder at the expense of losing fitness for transmission to new hosts. In contrast, non mutational adaptation may have evolved as a fitness-preserving strategy. Failure of RpoS− mutants to colonize the gall bladder supports the involvement of the general stress response in non mutational adaptation.

Highlights

Mutational and non mutational adaptation of Salmonella enterica to the gall bladder Verónica Urdaneta[1], Sara B
We tentatively propose that the RpoS-dependent general stress response may play a crucial role in gall bladder colonization
Salmonella infection was performed on two strains of mice: BALB/c, an immunodeficient breed suitable to monitor systemic, acute infection[22,23,24] and 129S2/SvPasCrl, an immunoproficient breed that permits monitoring of long lasting, persistent infection[25]

Summary

Introduction

Mutational and non mutational adaptation of Salmonella enterica to the gall bladder Verónica Urdaneta[1], Sara B. Bile-resistant mutants are recovered at frequencies high enough to suggest that increased mutation rates may occur in the gall bladder, providing a tentative example of stress-induced mutation in a natural environment. Bacterial populations with high mutation rates adapt quickly to a given environment but are outcompeted by non mutators in the long run[10]. This loss of long term fitness may contribute to explain the evolutionary emergence of non mutational strategies that adapt bacterial populations to cope with environmental challenges[11,12,13]

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