Genomic adaptations of Campylobacter jejuni to long-term human colonization

Bloomfield, Samuel J., Midwinter, Anne C., Biggs, Patrick J., French, Nigel P., Marshall, Jonathan C., Hayman, David T. S., Carter, Philip E., Mather, Alison E., Fayaz, Ahmed, Thornley, Craig, Kelly, David J. and Benschop, Jackie (2021) Genomic adaptations of Campylobacter jejuni to long-term human colonization. Gut Pathogens, 13 (1). ISSN 2076-0817

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Background Campylobacter is a genus of bacteria that has been isolated from the gastrointestinal tract of humans and animals, and the environments they inhabit around the world. Campylobacter adapt to new environments by changes in their gene content and expression, but little is known about how they adapt to long-term human colonization. In this study, the genomes of 31 isolates from a New Zealand patient and 22 isolates from a United Kingdom patient belonging to Campylobacter jejuni sequence type 45 (ST45) were compared with 209 ST45 genomes from other sources to identify the mechanisms by which Campylobacter adapts to long-term human colonization. In addition, the New Zealand patient had their microbiota investigated using 16S rRNA metabarcoding, and their level of inflammation and immunosuppression analyzed using biochemical tests, to determine how Campylobacter adapts to a changing gastrointestinal tract. Results There was some evidence that long-term colonization led to genome degradation, but more evidence that Campylobacter adapted through the accumulation of non-synonymous single nucleotide polymorphisms (SNPs) and frameshifts in genes involved in cell motility, signal transduction and the major outer membrane protein (MOMP). The New Zealand patient also displayed considerable variation in their microbiome, inflammation and immunosuppression over five months, and the Campylobacter collected from this patient could be divided into two subpopulations, the proportion of which correlated with the amount of gastrointestinal inflammation. Conclusions This study demonstrates how genomics, phylogenetics, 16S rRNA metabarcoding and biochemical markers can provide insight into how Campylobacter adapts to changing environments within human hosts. This study also demonstrates that long-term human colonization selects for changes in Campylobacter genes involved in cell motility, signal transduction and the MOMP; and that genetically distinct subpopulations of Campylobacter evolve to adapt to the changing gastrointestinal environment.

Item Type: Article
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Depositing User: LivePure Connector
Date Deposited: 15 Dec 2021 09:30
Last Modified: 23 Oct 2022 03:25
DOI: 10.1186/s13099-021-00469-7


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