Characterisation of Vibrio anguillarum for the development of vaccine in cod (Gadus morhua).

Atlantic cod (Gadus morhua L.) is one of the most promising new fish species introduced to cold water aquaculture due to the large established market in Europe and the USA and the decline in wild stock. So far, the production of farmed cod has been relatively low, with the main hindrance due to diseases. Vibrio anguillarum has been recognised as the biggest disease problem of farmed cod and has slowed the development of a successful cod aquaculture industry. When the first incidences of V. anguillarum occurred in cod aquaculture, vaccines designed for vibriosis in Atlantic salmon (Salmo salar L.) were used in an attempt to combat the disease. However, these vaccines did not provide sufficient protection, possibly because they lacked serotype O2b, which is known to affect cod and to a lesser extent salmonids. Recently, vibriosis vaccines specifically designed to protect Atlantic cod have been formulated, but outbreaks of vibriosis in vaccinated fish are still being reported, suggesting that these formulations are inadequate. The aim of this project was to develop a whole cell inactivated vaccine formulation specifically tailored to protect Atlantic cod against Vibrio anguillarum. The serological classification of V. anguillarum was first investigated by producing a set of monoclonal antibodies (mAbs). Using lipopolysaccharides (LPS) extracted with butan-1-ol, 4 mAbs were selected and shown to react specifically with V. anguillarum serotypes O1, O2a and O2b. A collection of over 150 V. anguillarum isolates were screened using these, which revealed that most of the isolates had been previously correctly classified. A new sub-serotype of V. anguillarum O2 was identified from isolates recovered from outbreaks of vibriosis in Norway as well as Scotland. This new sub-serotype was referred to as O2d since the subserotype O2c has been recently identified in vibriosis cases from Atlantic cod. However, it was shown that the O2c sub-serotype might not belong to the O2 serotype, but in fact belongs to another serotype. To protect Atlantic cod against all the V. anguillarum serotypes (and subserotypes) which they are susceptible to, it is recommended that isolates from serotypes O1, O2a, O2b, O2c and O2d should all be included in a bacterin vaccine for cod. In order to determine which isolates from each of the serotypes to include in the vaccine, a variety of virulence factors of V. anguillarum were investigated in vitro. The interaction of some candidate isolates from O1, O2a and O2b serotypes (O2c and O2d were not identified at the time this part of the study took place) with cod phagocytic cells were studied using flow cytometry. Phagocytosis and respiratory burst of cod macrophages and neutrophils as well as cod serum killing of V. anguillarum were quantified. It was found that isolates within the same serotype displayed varying degrees of resistance to phagocytosis and the subsequent respiratory burst activity as well as that all the V. anguillarum strains tested were resistant to Atlantic cod serum killing. These in vitro assays were found to be very useful in assessing the virulence of V. anguillarum. The isolate within each serotype eliciting the highest percentage of positive phagocytic cells was selected in order to increase the antigen presentation pathway, thus theoretically enhancing the protection elicited by the vaccine. A multivalent formalin-inactivated non-adjuvanted vaccine was prepared which included all the serotypes previously described and was injected intraperitoneally into Atlantic cod. A bath challenge was performed on vaccinated and mock-vaccinated fish, 6 weeks post immunisation, using V. anguillarum isolates from the serotypes O2b, O2c and O2d that were not included in the vaccine. An excellent level of protection was obtained against O2b and O2d (relative percentage survival 100% and 96.4%, respectively), but the challenge with the sub-serotype O2c isolate did not produce any mortality in the control group and needs to be repeated. The vaccine formulation was very efficient at protecting Atlantic cod against vibriosis but further challenges need to be performed with other serotypes included in the vaccine (O1 and O2a), as well as with more isolates from the O2b, O2c and O2d sub-serotype. To conclude, Atlantic cod is a species which will certainly have a major influence in marine aquaculture, but many areas have to be improved. The development of an effective and broad range vaccine to protect cod against Vibrio anguillarum offers another advance which should help Atlantic cod aquaculture to reach its full potential

First insights into the microbiology of three antarctic briny systems of the northern Victoria land

Different polar environments (lakes and glaciers), also in Antarctica, encapsulate brine pools characterized by a unique combination of extreme conditions, mainly in terms of high salinity and low temperature. Since 2014, we have been focusing our attention on the microbiology of brine pockets from three lakes in the Northern Victoria Land (NVL), lying in the Tarn Flat (TF) and Boulder Clay (BC) areas. The microbial communities have been analyzed for community structure by next generation sequencing, extracellular enzyme activities, metabolic potentials, and microbial abundances. In this study, we aim at reconsidering all available data to analyze the influence exerted by environmental parameters on the community composition and activities. Additionally, the prediction of metabolic functions was attempted by the phylogenetic investigation of communities by reconstruction of unobserved states (PICRUSt2) tool, highlighting that prokaryotic communities were presumably involved in methane metabolism, aromatic compound biodegradation, and organic compound (proteins, polysaccharides, and phosphates) decomposition. The analyzed cryoenvironments were different in terms of prokaryotic diversity, abundance, and retrieved metabolic pathways. By the analysis of DNA sequences, common operational taxonomic units ranged from 2.2% to 22.0%. The bacterial community was dominated by Bacteroidetes. In both BC and TF brines, sequences of the most thermally tolerant and methanogenic Archaea were detected, some of them related to hyperthermophiles

Taxonomy of bacterial fish pathogens

Bacterial taxonomy has progressed from reliance on highly artificial culture-dependent techniques involving the study of phenotype (including morphological, biochemical and physiological data) to the modern applications of molecular biology, most recently 16S rRNA gene sequencing, which gives an insight into evolutionary pathways (= phylogenetics). The latter is applicable to culture-independent approaches, and has led directly to the recognition of new uncultured bacterial groups, i.e. "Candidatus", which have been associated as the cause of some fish diseases, including rainbow trout summer enteritic syndrome. One immediate benefit is that 16S rRNA gene sequencing has led to increased confidence in the accuracy of names allocated to bacterial pathogens. This is in marked contrast to the previous dominance of phenotyping, and identifications, which have been subsequently challenged in the light of 16S rRNA gene sequencing. To date, there has been some fluidity over the names of bacterial fish pathogens, with some, for example Vibrio anguillarum, being divided into two separate entities (V. anguillarum and V. ordalii). Others have been combined, for example V. carchariae, V. harveyi and V. trachuri as V. harveyi. Confusion may result with some organisms recognized by more than one name; V. anguillarum was reclassified as Beneckea and Listonella, with Vibrio and Listonella persisting in the scientific literature. Notwithstanding, modern methods have permitted real progress in the understanding of the taxonomic relationships of many bacterial fish pathogens

Vibrio Fluvialis: An Unusual Enteric Pathogen of Increasing Public Health Concern

In developing countries, the fraction of treated wastewater effluents being discharged into watersheds have increased over the period of time, which have led to the deteriorations of the qualities of major rivers in developing nations. Consequently, high densities of disease causing bacteria in the watersheds are regularly reported including incidences of emerging Vibrio fluvialis. Vibrio fluvialis infection remains among those infectious diseases posing a potentially serious threat to public health. This paper addresses the epidemiology of this pathogen; pathogenesis of its disease; and its clinical manifestations in humans

<i>Vibrio communis</i> sp. nov., isolated from the marine animals <i>Mussismilia hispida, Phyllogorgia dilatata, Palythoa caribaeorum, Palythoa variabilis</i> and <i>Litopenaeus vannamei</i>

Eight Vibrio isolates originating from the marine corals Mussismilia hispida and Phyllogorgia dilatata and the zoanthids Palythoa caribaeorum and Palythoa variabilis in Brazil and the Pacific white shrimp (Litopenaeus vannamei) in Ecuador were studied by means of a polyphasic approach. The novel isolates formed a tight monophyletic group in the genus Vibrio and were closely related to species of the Vibrio harveyi group, to which they showed more than 99?% 16S rRNA gene sequence similarity. Analysis based on concatenated sequences of the following seven genes, 16S rRNA, gyrB, recA, rpoA, topA, pyrH and mreB (5633 bp in length), showed clear separation between the isolates and species of the V. harveyi group. Amplified fragment length polymorphism (AFLP) analysis, performed previously, revealed that a representative isolate of this group, LMG 20370, was clearly separate from known Vibrio species (it belonged to the so-called AFLP cluster A31). DNA–DNA hybridization (DDH) experiments with representative isolates and type strains of the V. harveyi species group revealed high DDH between the novel isolates (more than 74?%) and less than 70?% DDH towards type strains of related Vibrio species, proving the novel species status of the isolates. Phenotypically, the novel species belongs to the arginine dihydrolase (A)-negative, lysine decarboxylase (L)-positive and ornithine decarboxylase (O)-positive (A-/L+/O+) cluster reported previously. Most species of the V. harveyi group (i.e. Vibrio rotiferianus, V. harveyi, V. parahaemolyticus and V. alginolyticus) also belong to this A-/L+/O+ cluster. However, several phenotypic features can be used for the identification of the novel species. In contrast to its closest phylogenetic neighbours, the novel species exhibits esterase (C4) and N-acetyl-ß-glucosaminidase activities, but it does not produce acetoin, does not use citrate, a-ketoglutaric acid or propionic acid and does not ferment melibiose. The novel species can also be differentiated on the basis of the presence of the fatty acids C17?:?0, C17?:?1?8c, iso-C17?:?0 and iso-C13?:?0 and the absence of the fatty acid C18?:?0. The name Vibrio communis sp. nov. is proposed for this taxon. Strain R-40496T (=LMG 25430T =CAIM 1816T) is the type strain

Occurrence and Diversity of Clinically Important Vibrio Species in the Aquatic Environment of Georgia

Among the more than 70 different Vibrio species inhabiting marine, estuarine, and freshwater ecosystems, 12 are recognized as human pathogens. The warm subtropical climate of the Black Sea coastal area and inland regions of Georgia likely provides a favorable environment for various Vibrio species. From 2006 to 2009, the abundance, ecology, and diversity of clinically important Vibrio species were studied in different locations in Georgia and across seasons. Over a 33-month period, 1,595 presumptive Vibrio isolates were collected from the Black Sea (n=657) and freshwater lakes around Tbilisi (n=938). Screening of a subset of 440 concentrated and enriched water samples by PCR-electrospray ionization/mass spectrometry (PCR-ESI/MS) detected the presence of DNA from eight clinically important Vibrio species: V. cholerae, V. parahaemolyticus, V. vulnificus, V. mimicus, V. alginolyticus, V. harveyi, V. metschnikovii, and V. cincinnatiensis. Almost ninety percent of PCR/ESI-MS samples positive for Vibrio species were collected from June through November. Three important human pathogenic Vibrio species (V. cholerae, V. parahaemolyticus, and V. vulnificus) were detected in 62.8%, 37.8%, and 21.4% of samples testing positive for vibrios, respectively. The results of these activities suggest that natural reservoirs for human-pathogenic Vibrios exist in Georgian aquatic environments. Water temperature at all sampling sites was positively correlated with the abundance of clinically important Vibrio spp. (except V. metschnikovii) and salinity was correlated with species composition at particular Black Sea sites as well as inland reservoirs

Hemolymph microbiome of Pacific oysters in response to temperature, temperature stress and infection

Microbiota provide their hosts with a range of beneficial services, including defense from external pathogens. However, host-associated microbial communities themselves can act as a source of opportunistic pathogens depending on the environment. Marine poikilotherms and their microbiota are strongly influenced by temperature, but experimental studies exploring how temperature affects the interactions between both parties are rare. To assess the effects of temperature, temperature stress and infection on diversity, composition and dynamics of the hemolymph microbiota of Pacific oysters (Crassostrea gigas), we conducted an experiment in a fully-crossed, three-factorial design, in which the temperature acclimated oysters (8 or 22 °C) were exposed to temperature stress and to experimental challenge with a virulent Vibrio sp. Strain. We monitored oyster survival and repeatedly collected hemolymph of dead and alive animals to determine the microbiome composition by 16s rRNA gene amplicon pyrosequencing. We found that the microbial dynamics and composition of communities in healthy animals (including infection survivors) were significantly affected by temperature and temperature stress, but not by infection. The response was mediated by changes in the incidence and abundance of operational taxonomic units (OTUs) and accompanied by little change at higher taxonomic levels, indicating dynamic stability of the hemolymph microbiome. Dead and moribund oysters, on the contrary, displayed signs of community structure disruption, characterized by very low diversity and proliferation of few OTUs. We can therefore link short-term responses of host-associated microbial communities to abiotic and biotic factors and assess the potential feedback between microbiota dynamics and host survival during disease

Inhibitory activity of Phaeobacter strains against aquaculture pathogenic bacteria

A total of 523 bacterial strains were isolated during a 4-year period from mollusc hatcheries (flat oyster and clams) in Galicia (NW Spain). All of the strains were tested for their antibacterial activity against three larval pathogens (Vibrio anguillarum USC-72, V. neptunius PP-145.98, and Vibrio sp. PP-203). Of the isolates, 52 inhibited at least one of the target strains, and 11 inhibited all of them. The main source of active strains was oyster larvae, followed by water, tank surfaces, spat, and broodstock. Four similar strains, belonging to the genus Phaeobacter, showed the strongest activity. Strain PP-154, selected as representative of this group, displayed a wide spectrum of inhibitory activity against aquaculture pathogens, especially against members of the genus Vibrio, which is responsible for the most larval deaths. The inhibitory ability of such strain on solid medium was confirmed in seawater experiments, and the optimal conditions for antibacterial activity were established. These strains are promising probiotics for aquaculture facilities. Their potential benefit is based on the capacity to control the proliferation of a variety of aquaculture bacterial pathogens in mollusc larval cultures. [Int Microbiol 2009; 12(2):107-114

Isolation and characterization of Vibrio parahaemolyticus from seafoods along the southwest coast of India

The work was aimed to study the microbial quality of the seafood sold in the domestic markets and incidence of Vibrio parahaemolyticus. Samples comprising of shellfish, finfish, and cephalopodswere collected fromvarious fish markets in and around Cochin. Presumed V. parahaemolyticus were identified by standard biochemical tests, and further confirmed by polymerase chain reaction targeting species-specific tl gene (450 bp)