Persistence of heterologous Flavobacterium psychrophilum genetic variants in microcosms simulating fish farm and hatchery environments

Flavobacterium psychrophilum, the causative agent of bacterial coldwater disease, causes substantial economic losses in salmonid farms and hatcheries. Some multilocus sequence types (ST) of F. psychrophilum are more likely to be associated with fish farms and hatcheries, but it is unclear if these patterns of association represent genetic lineages that are more adapted to aquaculture environments. Towards elucidating the disease ecology of F. psychrophilum, the culturability of 10 distinct F. psychrophilum STs was evaluated for 13 weeks in three microcosms including sterilized well water, sterilized well water with commercial trout feed, or sterilized well water with raceway detritus. All STs remained culturable in each of the microcosms for at least 8 weeks, with bacterial concentrations often highest in the presence of raceway detritus. In addition, most (e.g., 90%) STs remained culturable for at least 13-weeks. Significant differences in log₁₀ cfus were observed among STs, both within and between microcosms, suggesting potential variability in environmental persistence capacity among specific variants. Collectively, results highlight the ability of F. psychrophilum to not only persist for weeks under nutrient-limited conditions but also thrive in the presence of organic substrates common in fish farms and hatchery-rearing units.     

A proposed serotyping system for Flavobacterium psychrophilum

AIMS: To develop a common serological system for rapid and routine identification of the fish pathogen Flavobacterium psychrophilum. METHODS: Thirty-four isolates of Fl. psychrophilum from different fish species and different geographical areas were typed using a slide agglutination test and an enzyme-linked immunosorbent assay (ELISA). RESULTS: Seven host-dependent serovars (1: salmon; 2: trout; 3: trout; 4: eel; 5: carp; 6: tench; 7: ayu) were found. Serovar 2 was divided into two antigenic subgroups (2a and 2b). The results achieved by both slide agglutination and ELISA methods were totally consistent with each other. Although both techniques proved to be simple to carry out and useful, only the ELISA allowed identification of Fl. psychrophilum serovars using unabsorbed antiserum and whole-cells as antigens. SIGNIFICANCE AND IMPACT OF THE STUDY: This paper proposes a harmonized scheme for serological identification of Fl. psychrophilum to be used for diagnostic and seroepidemiological studies of the diseases it causes.     

An improved growth medium for Flavobacterium psychrophilum

Supplementing cytophaga agar and broth with 0.5 g l-1 each of D(+) galactose, D(+) glucose, L-rhamnose and skimmed milk gave a dramatic improvement in the isolation of the fish pathogen Flavobacterium psychrophilum. By means of spread-plating, approximately double the number of colonies of larger size were obtained on the improved medium compared to cytophaga agar alone. In supplemented cytophaga broth, growth of Fl. psychrophilum was more rapid and generated greater biomass.     

Genotyping of Flavobacterium psychrophilum using PCR-RFLP analysis

Genetic variability among 242 strains of Flavobacterium psychrophilum was characterized using polymerase chain reaction (PCR) followed by restriction fragment length polymorphism (RFLP) analysis. Universal Primers GYR-1 and GYR-1R, which were designed to amplify the gyrase subunit B gene (gyrB), yielded a 1178 bp PCR product encoding gyrB and a 290 bp PCR product of anonymous DNA from all F. psychrophilum strains tested. In the RFLP analysis of the anonymous 290 bp DNA marker, the restriction enzyme HinfI generated 2 cleavage patterns (Genotypes A and B). Genotype A was found only in isolates from ayu (n = 109), while Genotype B was found in isolates from coho salmon (n = 11), ayu (n = 35), rainbow trout (n = 43) and other fishes (n = 44). In the second experiment, Primers PSY-G1F and PSY-G1R specific for F. psychrophilum, were used to amplify gyrB. The specific primer pair amplified the expected size (1017 bp) PCR product from all F. psychrophilum strains. In the RFLP analysis of the gyrB, the restriction enzyme RsaI produced 2 genotypes, R and S. Genotype R was found in isolates from coho salmon (n = 6), ayu (n = 27), rainbow trout (n = 39) and other fishes (n = 4). Genotype S was found in isolates from coho salmon (n = 5), ayu (n = 117), rainbow trout (n = 4) and other fishes (n = 40).     

Population structure of the fish-pathogenic bacterium Flavobacterium psychrophilum

Flavobacterium psychrophilum is currently one of the main bacterial pathogens hampering the productivity of salmonid farming worldwide, and its control mainly relies on antibiotic treatments. To better understand the population structure of this bacterium and its mode of evolution, we have examined the nucleotide polymorphisms at 11 protein-coding loci of the core genome in a set of 50 isolates. These isolates were selected to represent the broadest possible diversity, originating from 10 different host fish species and four continents. The nucleotide diversity between pairs of sequences amounted to fewer than four differences per kilobase on average, corresponding to a particularly low level of diversity, possibly indicative of a small effective-population size. The recombination rate, however, seemed remarkably high, and as a consequence, most of the isolates harbored unique combinations of alleles (33 distinct sequence types were resolved). The analysis also showed the existence of several clonal complexes with worldwide geographic distribution but marked association with particular fish species. Such an association could reflect preferential routes of transmission and/or adaptive niche specialization. The analysis provided no clues that the initial range of the bacterium was originally limited to North America. Instead, the historical record of the expansion of the pathogen may reflect the spread of a few clonal complexes. As a resource for future epidemiological surveys, a multilocus sequence typing website based on seven highly informative loci is available.     

Flavobacterium psychrophilum vaccine development: a difficult task

Bacterial cold water disease (BCWD) is a globally distributed freshwater fish disease caused by the Gram-negative bacterium Flavobacteriumpsychrophilum. It is a particularly devastating infection in fry salmonids and may lead to high levels of mortality. In spite of its economic impact on fish farms, neither the biology of the bacterium nor the bacterium–host interactions are well understood. This review provides a synopsis of the major problems related to critical remaining questions about research into the use of vaccines against F. psychrophilum and the development of a commercial vaccine against this disease. Studies using sera from convalescent rainbow trout have shown the antigenic properties of different proteins such as OmpH, OmpA and FspA, as well as low and high molecular mass lipopolysaccharide of F. psychrophilum, which are potential candidates for subunit vaccines. Inactivated F. psychrophilum bacterins have been successfully tested as vaccines under laboratory conditions by both immersion and intraperitoneal routes. However, the efficacy and the practical usefulness of these preparations still have to be proved. The use of attenuated and wild-type strains to immunize fish showed that these systems offer high levels of protection. Nevertheless, their application clashes with the regulations for environmental protection in many countries. In conclusion, protective vaccines against BCWD are theoretically possible, but substantial efforts still have to be made in order to permit the development of a commercial vaccine.     

Complete genome sequence of the fish pathogen Flavobacterium psychrophilum

We report here the complete genome sequence of the virulent strain JIP02/86 (ATCC 49511) of Flavobacterium psychrophilum, a widely distributed pathogen of wild and cultured salmonid fish. The genome consists of a 2,861,988-base pair (bp) circular chromosome with 2,432 predicted protein-coding genes. Among these predicted proteins, stress response mediators, gliding motility proteins, adhesins and many putative secreted proteases are probably involved in colonization, invasion and destruction of the host tissues. The genome sequence provides the basis for explaining the relationships of the pathogen to the host and opens new perspectives for the development of more efficient disease control strategies. It also allows for a better understanding of the physiology and evolution of a significant representative of the family Flavobacteriaceae, whose members are associated with an interesting diversity of lifestyles and habitats.     

Relationship between gyrA mutations and quinolone resistance in Flavobacterium psychrophilum isolates

Flavobacterium psychrophilum is the causative agent of the fish diseases called bacterial cold-water disease and rainbow trout fry syndrome. It has been reported that some isolates of F. psychrophilum are resistant to quinolones; however, the mechanism of this quinolone resistance has been unexplained. In this study, we examined the quinolone susceptibility patterns of 27 F. psychrophilum strains isolated in Japan and the United States. Out of 27 isolates, 14 were resistant to both nalidixic acid (NA) and oxolinic acid (OXA), and the others were susceptible to NA and OXA. When amino acid sequences deduced from gyrA nucleotide sequences of all isolates tested were analyzed, two amino acid substitutions (a threonine residue replaced by an alanine or isoleucine residue in position 83 of GyrA [Escherichia coli numbering] and an aspartic acid residue replaced by a tyrosine residue in position 87) were observed in the 14 quinolone-resistant isolates. These results strongly suggest that, as in other gram-negative bacteria, DNA gyrase is an important target for quinolones in F. psychrophilum.     

Relationship between gyrA Mutations and Quinolone Resistance in Flavobacterium psychrophilum Isolates

Flavobacterium psychrophilum is the causative agent of the fish diseases called bacterial cold-water disease and rainbow trout fry syndrome. It has been reported that some isolates of F. psychrophilum are resistant to quinolones; however, the mechanism of this quinolone resistance has been unexplained. In this study, we examined the quinolone susceptibility patterns of 27 F. psychrophilum strains isolated in Japan and the United States. Out of 27 isolates, 14 were resistant to both nalidixic acid (NA) and oxolinic acid (OXA), and the others were susceptible to NA and OXA. When amino acid sequences deduced from gyrA nucleotide sequences of all isolates tested were analyzed, two amino acid substitutions (a threonine residue replaced by an alanine or isoleucine residue in position 83 of GyrA [Escherichia coli numbering] and an aspartic acid residue replaced by a tyrosine residue in position 87) were observed in the 14 quinolone-resistant isolates. These results strongly suggest that, as in other gram-negative bacteria, DNA gyrase is an important target for quinolones in F. psychrophilum.     

Lipopolysaccharide O-antigen antibody-based detection of the fish pathogen Flavobacterium psychrophilum

Several yellow-pigmented species within the family Flavobacteriaceae are commonly associated with diseases in fish and are difficult to speciate due to their fastidious, slow-growing nature and cross-reactive antigens. Here we report the development of specific, antibody-diagnostic tests for Flavobacterium psychrophilum, the aetiological agent of rainbow trout fry syndrome and bacterial cold water disease. A unique antigen from F. psychrophilum, the lipopolysaccharide (LPS) O-polysaccharide (O-PS), formed the basis for the antibody test. LPS O-PS was purified and conjugated to keyhole limpet haemocyanin and bovine serum albumin for the generation of rabbit immune sera and the development of antibody-based diagnostic tests. Rabbit polyclonal anti-O-PS serum was highly specific for F. psychrophilum, without the need for prior cross-absorption with related bacteria and was the basis of an effective ELISA diagnostic test. Antibodies were purified from rabbit anti-O-PS serum and adsorbed onto coloured latex beads for the development of a specific, bead agglutination assay for F. psychrophilum.     

Starvation of Flavobacterium psychrophilum in broth, stream water and distilled water

Physical changes in Flavobacterium psychrophilum, the causative agent of rainbow trout fry syndrome (RTFS), were examined over a 19 wk period of starvation. Bacteria were maintained in either Cytophaga broth, filtered stream water, or filtered distilled water, or were maintained in broth after disinfection as a negative control for dead bacteria. Culturability and viability of the bacterium were assessed using colony-forming units (CFUs) and a commercially available live/dead kit. Antigenic profiles and general morphology of the bacterium were also examined using Western blot analysis and electron microscopy, respectively. The bacterium appeared to stop multiplying and became smaller and rounded when maintained in stream water. Its culturability declined until it was no longer possible to obtain colonies on agar plates at the end of the trial at 19 wk, and results from the live/dead kit did not correspond with the viability obtained as CFUs in culture. However, it was still possible to obtain growth of the bacterium after 36 wk with a resuscitation step in Cytophaga broth. Bacteria maintained in distilled water or treated with a disinfectant appeared non-viable using the live/dead kit and were unable to grow on agar 1 h after setting up the experiment; no morphological changes were observed in the bacteria maintained under these conditions. Bacteria maintained in broth were present as long, slim rods, some of which developed into 'ring' formations. Small differences were observed in the antigen profiles of the bacteria maintained under the different treatments, possibly due to a reduction in the size and metabolism of the bacteria. There was also a marked decline in the sensitivity of the PCR with bacteria maintained under the different treatments 14 wk from the onset of the study.     

Multilocus Sequence Typing Identifies Epidemic Clones of Flavobacterium psychrophilum in Nordic Countries

Flavobacterium psychrophilum is the causative agent of bacterial cold water disease (BCWD), which affects a variety of freshwater-reared salmonid species. A large-scale study was performed to investigate the genetic diversity of F. psychrophilum in the four Nordic countries: Denmark, Finland, Norway, and Sweden. Multilocus sequence typing of 560 geographically and temporally disparate F. psychrophilum isolates collected from various sources between 1983 and 2012 revealed 81 different sequence types (STs) belonging to 12 clonal complexes (CCs) and 30 singleton STs. The largest CC, CC-ST10, which represented almost exclusively isolates from rainbow trout and included the most predominant genotype, ST2, comprised 65% of all isolates examined. In Norway, with a shorter history (<10 years) of BCWD in rainbow trout, ST2 was the only isolated CC-ST10 genotype, suggesting a recent introduction of an epidemic clone. The study identified five additional CCs shared between countries and five country-specific CCs, some with apparent host specificity. Almost 80% of the singleton STs were isolated from non-rainbow trout species or the environment. The present study reveals a simultaneous presence of genetically distinct CCs in the Nordic countries and points out specific F. psychrophilum STs posing a threat to the salmonid production. The study provides a significant contribution toward mapping the genetic diversity of F. psychrophilum globally and support for the existence of an epidemic population structure where recombination is a significant driver in F. psychrophilum evolution. Evidence indicating dissemination of a putatively virulent clonal complex (CC-ST10) with commercial movement of fish or fish products is strengthened.     

Detection of the fish pathogen Flavobacterium psychrophilum in water from fish farms

Rainbow trout fry syndrome and cold-water disease are serious diseases in farmed salmonid fish. In the present study, three methods were compared, for the detection of the causative pathogen, Flavobacterium psychrophilum in water. The methods included traditional agar plate cultivation on tryptone yeast extract salts (TYES) agar, immunofluorescence antibody technique (IFAT) and nested PCR. The three methods were subsequently used for the detection of F. psychrophilum from fish farm environments. The nested PCR was the most sensitive method used for a detection of F. psychrophilum. As low as 3 CFU estimated by agar plate cultivation or 41 cells estimated by IFAT of F. psychrophilum per ml of non-sterile well water were needed for a detection using the nested PCR method. The obtained detection limits for the agar plate cultivation and the IFAT was 32 CFU/ml and 410 cells/ml, respectively. Using IFAT and nested PCR F. psychrophilum was detected most frequently in water samples from fish farms, but the pathogen was isolated from only a few samples using agar plate cultivation. In the present study IFAT and nested PCR proved to be rapid, specific and sensitive methods compared to traditional agar plate cultivation for the detection of F. psychrophilum from environmental samples. It is suggested that IFAT and nested PCR provide effective tools for the examination of F. psychrophilum in the environment.     

Changes in the cell structure of Flavobacterium psychrophilum with length of culture

Flavobacterium psychrophilum, the pathogen of bacterial cold-water disease, causes serious problems in ayu Plecoglossus altivelis culture. This study investigated the effect of the culture period of F. psychrophilum and on the structure of its cells. From the SDS-PAGE of total proteins of cellular components, much difference was found between the 36 hr culture and the 48 and 72 hr cultures. A SEM observation of the cells showed many fragments, especially on the cell surface of the 36 hr culture. These fragments consisted of an outer membrane, seen by TEM observation, and may contain substances causing the virulence. Specific proteins observed by the SDS-PAGE and fragments in the 36 hr culture may be related to the virulence of F. psychrophilum.     

Development of Genetic Techniques for the Psychrotrophic Fish Pathogen Flavobacterium psychrophilum

Flavobacterium psychrophilum, a member of the Cytophaga-Flavobacterium-Bacteroides group, is an important pathogen of salmonid fish. Previous attempts to develop genetic techniques for this fastidious, psychrotrophic bacterium have met with failure. Here we describe the development of techniques for the genetic manipulation of F. psychrophilum and the identification of plasmids, selectable markers, a reporter system, and a transposon that function in several isolates of this fish pathogen. The antibiotic resistance genes ermF, cfxA, and tetQ function in F. psychrophilum. Cloning vectors based on the F. psychrophilum cryptic plasmid pCP1 which carried these selectable markers were introduced by conjugation from E. coli, resulting in antibiotic-resistant colonies of F. psychrophilum. Conjugative transfer of DNA into F. psychrophilum was strain dependent. Efficient transfer was observed for two of the seven strains tested (THC02-90 and THC04-90). E. coli lacZY functioned in F. psychrophilum when expressed from a pCP1 promoter, allowing its development as a reporter for studies of gene expression. Plasmids isolated from F. psychrophilum were efficiently introduced into F. psychrophilum by electroporation, but plasmids isolated from E. coli were not suitable for transfer by this route, suggesting the presence of a restriction barrier. DNA isolated from F. psychrophilum was resistant to digestion by Sau3AI and BamHI, indicating that a Sau3AI-like restriction modification system may constitute part of this barrier. Tn4351 was introduced into F. psychrophilum from E. coli and transposed with apparent randomness, resulting in erythromycin-resistant colonies. The techniques developed in this study allow for genetic manipulation and analysis of this important fish pathogen.     

Characterisation of surface blebbing and membrane vesicles produced by Flavobacterium psychrophilum

The surface of Flavobacterium psychrophilum was examined by electron microscopy to determine if previous findings of haemagglutination positive (HA+) and haemagglutination negative (HA-) abilities could be correlated with expression of pili or of a capsular layer. A thin capsular layer was observed in both HA+ and HA- strains but typical pili were absent. However, long, tubular blebs that released membrane vesicles (MVs) into the supernatant were observed on up to 94% of cells within 1 sample. The surface blebbing was increased for 1 strain following growth on media with restricted iron availability. The MVs had an intact membrane bilayer and were released from blebbing cells of both strains. The protein profiles of MVs, while containing some banding similarity with the profile of outer membrane preparations (OMPs) and of lysed whole cells (WCs), showed several bands that reacted strongly with rabbit anti-whole-cell antisera. Two distinct bands of approximately 62 and 58 kDA were highly expressed in the MVs and not seen in the OMP. MVs contained proteolytic activity towards gelatine but not towards casein and elastin, which were only degraded by live cells. Low molecular weight lipopolysaccharides (LPS) or lipooligosaccharides (LOS) were associated with the MVs. Only the MVs of the HA+ strain possessed haemagglutinin activity. These findings suggest that the F. psychrophilum may, through surface blebbing, release antigenic MVs that contain some proteolytic activity and may aid the bacterium in releasing nutrients from its surrounding environment as well as playing a role in impeding the immune response of its host.     

Recovery of Flavobacterium psychrophilum viable cells using a charcoal-based solid medium

AIMS: Flavobacterium psychrophilum is the etiological agent of the cold-water disease in salmonids. This micro-organism is somewhat fastidious being difficult to isolate and culture. The aim of this study was to develop a new solid medium which improves the recovery of viable cells from a sample. METHODS AND RESULTS: Six different media [nutrient agar (NA), NA + charcoal (NAC), enriched Anacker Ordal serum (EAOS), EAOS supplemented with aromatic compounds (EAOSa), EAOS with activated charcoal (EAOC) and EAOC supplemented with aromatic compounds (EAOCa)], three of them containing activated charcoal, were used to recover isolated colonies from a diluted sample of Fl. psychrophilum THC02-90. Pair wise comparisons between different media were carried out using the test of bootstrap to determine the best solid medium and if the presence of activated charcoal increased the number of colonies. The results showed that activated charcoal improved the recovery of viable cells in all the cases and NAC was slightly better than EAOCa but more variable. CONCLUSIONS: Activated charcoal has a great capacity of absorption of toxic compounds and it has no nutritional value, so the problems to culture and isolate Fl. psychrophilum are in part due to an inhibition phenomenon. The use of EAOCa can overcome some of these problems. SIGNIFICANCE AND IMPACT OF THE STUDY: The improvement in Fl. psychrophilum cultivation will facilitate physiological, biochemical and genetic studies with this bacterium.