2019
DOI: 10.1101/857540
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Protective microbe enhances colonisation of a novel host species by modifying immune gene expression

Abstract: Microbes that protect against infection inhabit hosts across the tree of life. It is unclear whether many protective microbes use or reduce the need for a host immune response, or how the immune system reacts when these microbes newly encounter a host species naturally and as part of a biocontrol strategy. We sequenced the transcriptome of a host (Caenorhabditis elegans) following its interaction with a non-native bacterium (Enterococcus faecalis) that has protective traits against the pathogen, Staphylococcus… Show more

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Cited by 2 publications
(2 citation statements)
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“…Several mammalian pathogens suppress commensal competition by triggering immune responses that they are more resistant to than their competitors [8,50,51]. The reverse has also been observed in a plant system and an animal system, where the pathogen resistance apparently conferred by a commensal was found to be at least partly driven by the commensal's triggering a host immune response that primarily harmed that pathogen [48,52]. It also appears to be common among plants and animals for the presence of commensals to 'prime' the immune system into an alert state that responds more rapidly and severely when a pathogen is encountered [35,49].…”
Section: Pathogens Compete With Commensals To Inhabit the Hostmentioning
confidence: 99%
“…Several mammalian pathogens suppress commensal competition by triggering immune responses that they are more resistant to than their competitors [8,50,51]. The reverse has also been observed in a plant system and an animal system, where the pathogen resistance apparently conferred by a commensal was found to be at least partly driven by the commensal's triggering a host immune response that primarily harmed that pathogen [48,52]. It also appears to be common among plants and animals for the presence of commensals to 'prime' the immune system into an alert state that responds more rapidly and severely when a pathogen is encountered [35,49].…”
Section: Pathogens Compete With Commensals To Inhabit the Hostmentioning
confidence: 99%
“…Protection induced by colistin was dependent on PMK‐1 and DAF‐16, and activated similar genes to those induced by Y. pestis [40]. Bacterial species can upregulate host immune gene expression in order to outcompete other microbes, and thus, immune modulation may be evolutionarily advantageous to both host and colonising bacteria [41].…”
Section: Immune Response Activation Can Provide Long‐lasting Immunitymentioning
confidence: 99%