Whole genome analysis of Yersinia ruckeri isolated over 27 years in Australia and New Zealand reveals geographical endemism over multiple lineages and recent evolution under host selection

Barnes, Andrew C.; Delamare-Deboutteville, J.; Gudkovs, Nicholas; Brosnahan, Cara L.; Morrison, R. I. Guy; Carson, J

doi:10.1099/mgen.0.000095

Cited by 32 publications

(65 citation statements)

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“…agalactiae (35). The rapid fall in cost of whole genome sequencing coupled with multiplexing and rapid development of open source bioinformatics tools has permitted much deeper analysis of evolution, host adaptation and epidemiological modelling within single bacterial species (36) including those from aquatic hosts (14, 15). Bacteria such as S .…”

Section: Introductionmentioning

confidence: 99%

Microevolution of aquaticStreptococcus agalactiaeST-261 from Australia indicates dissemination via imported tilapia and ongoing adaptation to marine hosts or environment

Kawasaki

Delamare-Deboutteville

Bowater³

et al. 2018

Preprint

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Streptococcus agalactiae (GBS) causes disease in a wide range of animals. The serotype 1b lineage is highly adapted to aquatic hosts, exhibiting substantial genome reduction compared with terrestrial con-specifics. Here we sequence genomes from 40 GBS isolates including 25 from wild fish and captive stingrays in Australia, six local veterinary or human clinical isolates, and nine isolates from farmed tilapia in Honduras and compare with 42 genomes from public databases. Phylogenetic analysis based on non-recombinant core genome SNPs indicated that aquatic serotype Ib isolates from Queensland were distantly related to local veterinary and human clinical isolates. In contrast, Australian aquatic isolates are most closely related to a tilapia isolate from Israel, differing by only 63 core-genome SNPs. A consensus minimum spanning tree based on core genome SNPs indicates dissemination of ST-261 from an ancestral tilapia strain, which is congruent with several introductions of tilapia into Australia from Israel during the 1970s and 1980s. Pan-genome analysis identified 1,440 genes as core with the majority being dispensable or strain-specific with non-protein-coding intergenic regions (IGRs) divided amongst core and strain-specific genes. Aquatic serotype Ib strains have lost many virulence factors during adaptation, but six adhesins were well conserved across the aquatic isolates and might be critical for virulence in fish and targets for vaccine development. The close relationship amongst recent ST-261 isolates from Ghana, USA and China with the Israeli tilapia isolate from 1988 implicates the global trade in tilapia seed for aquaculture in the widespread dissemination of serotype Ib fish-adapted GBS.ImportanceStreptococcus agalactiae (GBS) is a significant pathogen of humans and animals. Some lineages have become adapted to particular hosts and serotype Ib is highly specialized to fish. Here we show that this lineage is likely to have been distributed widely by the global trade in tilapia for aquaculture, with probable introduction into Australia in the 1970s and subsequent dissemination in wild fish populations. We report variability in the polysaccharide capsule amongst this lineage, but identify a cohort common surface proteins that may be a focus of future vaccine development to reduce the biosecurity risk in international fish trade.

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Section: Introductionmentioning

confidence: 99%

Microevolution of aquaticStreptococcus agalactiaeST-261 from Australia indicates dissemination via imported tilapia and ongoing adaptation to marine hosts or environment

Kawasaki

Delamare-Deboutteville

Bowater³

et al. 2018

Preprint

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“…Vaccination in aquaculture has successfully reduced the use of antibiotics while increasing production by protecting fish against pathogens (Gudding, 2014;Håstein et al, 2005;Sommerset et al, 2014). Today, many commercial vaccines against bacterial pathogens are available to aquaculture producers in several countries (Barnes et al, 2016;Håstein et al, 2005;Munang'andu, 2018). However, vaccines are not a perfect solution to all bacterial diseases and some bacterial pathogens, like Streptococcus, present challenges to effective long-term protective vaccines.…”

Section: Chapter 5: General Discussionmentioning

confidence: 99%

“…achromogenes and Yersinia ruckeri in salmonid fish (Barnes et al, 2016;Gudmundsdóttir et al, 1997;Ormsby et al, 2016) and against Streptococcus iniae in barramundi and GBS in stingrays Millard et al, 2012). Autogenous vaccines are also known as emergency vaccine, which can be used under the circumstances where fully licensed vaccines are not available, not effective or the causative agent is not covered (Hoelzer et al, 2018).…”

Section: Chapter 5: General Discussionmentioning

confidence: 99%

“…Microevolution within a bacterial species can be driven by host or environmental adaptation (Brynildsrud et al, 2014;Rosinski-Chupin et al, 2013), permitting an inference of the epidemiology of disease outbreaks and how pathogens may have transferred within and between geographic regions (Barnes et al, 2016;Brynildsrud et al, 2014;Sabat et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

“…and Streptococcus spp. (Barnes et al, 2016;Håstein et al, 2005;Munang'andu, 2018). However, some bacterial fish pathogens are still hard to control by vaccination.…”

Section: Introductionmentioning

confidence: 99%

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A pan genome reverse vaccinology approach to prevent Streptococcus agalactiae infection in farmed tilapia

Kawasaki¹

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Streptococcus agalactiae (Group B Streptococcus; GBS) is a Gram-positive pathogenic bacterium that causes disease in a wide range of animals including fish. Outbreaks of GBS in farmed fish have substantial economic impacts on the aquaculture industry, especially in tilapia production, a staple food product in tropical and subtropical low-and middle-income countries and the second most widely farmed fish after carp. Although vaccination can effectively prevent disease caused by GBS in fish it often fails after relatively short periods of use. Capsular polysaccharide (CPS) is the major protective antigen in GBS vaccines and a critical virulence factor. There are currently ten CPS serotypes of GBS and, whilst vaccination against one serotype confers protection in fish, it is not cross-protective against other serotypes. In addition, under the strong selective pressure of vaccination-driven adaptive immunity, evolution of novel serotypes can occur. To improve the serotype crossprotective efficacy of GBS vaccines for aquaculture, I employed a pan-genome reverse vaccinology approach to design candidate serotype-independent protective vaccines based on conserved proteins in fish-pathogenic GBS serotypes. Reverse vaccinology exploits recent advances in genomics to predict antigens in the genome sequence. Reverse vaccinology combined with pan-genome can identify the antigens that are conserved across a diversity of strains of a pathogen.To identify potential vaccine candidate antigens, a pan-genome was constructed for GBS comprising 82 genomes including representative isolates from wild marine fish and stingrays, farm and companion animals and from human clinical cases in Australia, along with isolates from farmed tilapia in Honduras and representative genomes from all current serotypes available via the NCBI Genbank database. Core genome single nucleotide polymorphism 3 (SNP) analysis indicated dissemination of the aquatic host-adapted ST-261 lineage in wild Australian fish from an ancestral tilapia strain, which is congruent with several introductions of tilapia into northern Australia from Israel and Malaysia during the 1970s and 1980s.Aquatic serotype Ib GBS strains have lost many virulence factors during adaptation, but six adhesins, named ST-261 adhesins, were well-conserved across the aquatic isolates and might be critical for virulence in fish and good targets for vaccine development. Three of six ST-261 adhesins were also conserved across all strains including terrestrial isolates and were chosen as vaccine candidates. Expressions of ST-261 adhesin genes were inversely co-regulated with CPS expression dependent upon carbon source and metal ions in the medium. However, gene transcription was not reflective of surface expression as serum antibodies derived in tilapia against recombinant adhesins did not detect similar variation in the level of ST-261 adhesins in whole cell ELISA or Western blot. This may be due to posttranscriptional processing causing a disconnect between gene and protein expression.To evaluate th...

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Disease management of aquatic animals

Kelly

Renukdas

2020

Aquaculture Health Management

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Whole genome analysis of Yersinia ruckeri isolated over 27 years in Australia and New Zealand reveals geographical endemism over multiple lineages and recent evolution under host selection

Cited by 32 publications

References 60 publications

Microevolution of aquaticStreptococcus agalactiaeST-261 from Australia indicates dissemination via imported tilapia and ongoing adaptation to marine hosts or environment

Microevolution of aquaticStreptococcus agalactiaeST-261 from Australia indicates dissemination via imported tilapia and ongoing adaptation to marine hosts or environment

A pan genome reverse vaccinology approach to prevent Streptococcus agalactiae infection in farmed tilapia

Disease management of aquatic animals

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