Elena G. Biosca scite author profile

Strains of Vibrio vuln~flcus biotype 2 were recovered from diseased European eels Angujlla anguilla during 2 epizootics These stralns were biochemically and serologically identical to the ATCC 33149 strain, which was lsolated from the Japanese eel Angujlla japonica. The isolates of biotype 2 from European eels were more virulent for elvers (LD50 < 10' cfu) than the Japanese strain used as control (LDS0 = 104 cfu). All strains of biotype 2 were able to adhere to human and fish cell lines and were also strongly cytotoxic. The extracellu1a1-products (ECPs) of the Japanese strain exhibited lipolytic, phospholipolytic, proteolytic, and haernolyt~c activities, whereas the ECPs of the Spanish isolates displayed only proteolytic activity. Strains of biotype 1 were recovered from tank water and healthy eels during the second outbreak. These isolates were biochemically similar to the type strain ATCC 27562, and serologically distinct from the isolates of biotype 2. Strains of biotype 1 produced proteases, haemolysins, and cytotoxins and showed specific adhesion to human cells, but they were non-pathogenic for eels. The strains of biotype 2 were more virulent for mice (LDS" = 10' to 106cfu) than the strains of biotype 1 (LDS(, = 10%fu), suggesting that this eel pathogen may also represent a health hazard problem for fish farmers.

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Phenotypic characterization of Vibrio vulnificus biotype 2, a lipopolysaccharide-based homogeneous O serogroup within Vibrio vulnificus

Biosca

Oliver

Amaro

1996

Appl Environ Microbiol

101

100

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In this study, we have reevaluated the taxonomic position of biotype 2 of Vibrio vulnificus. For this purpose, we have biochemically and serologically characterized 83 biotype 2 strains from diseased eels, comparing them with 17 biotype 1 strains from different sources. Selected strains were also molecularly analyzed and tested for eel and mouse pathogenicity. Results have shown that biotype 2 (i) is biochemically homogeneous, indole production being the main trait that distinguishes it from biotype 1, (ii) presents small variations in DNA restriction profiles and outer membrane protein patterns, some proteins being immunologically related to outer membrane proteins from biotype 1, (iii) expresses a common lipopolysaccharide (LPS) profile, which is immunologically identical among strains and distinct from that of LPS of tested biotype 1 strains, and (iv) contains at least two high-M r plasmids. Regarding host range, we have confirmed that both biotypes are pathogenic for mice but only biotype 2 is pathogenic for eels. On the basis of these data, we propose that biotype 2 of V. vulnificus constitutes an LPS-based O serogroup which is phenotypically homogeneous and pathogenic for eels. In this article, the serogroup is designated serogroup E (for eels).

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Survival Strategy of Erwinia amylovora against Copper: Induction of the Viable-but-Nonculturable State

Ordax

Marco‐Noales

López

et al. 2006

Appl Environ Microbiol

125

104

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Copper compounds, widely used to control plant-pathogenic bacteria, have traditionally been employed against fire blight, caused by Erwinia amylovora. However, recent studies have shown that some phytopathogenic bacteria enter into the viable-but-nonculturable (VBNC) state in the presence of copper. To determine whether copper kills E. amylovora or induces the VBNC state, a mineral medium without copper or supplemented with 0.005, 0.01, or 0.05 mM Cu 2؉ was inoculated with 10 7 CFU/ml of this bacterium and monitored over 9 months. Total and viable cell counts were determined by epifluorescence microscopy using the LIVE/ DEAD kit and by flow cytometry with 5-cyano-2,3-ditolyl tetrazolium chloride and SYTO 13. Culturable cells were counted on King's B nonselective solid medium. Changes in the bacterial morphology in the presence of copper were observed by scanning electron microscopy. E. amylovora entered into the VBNC state at all three copper concentrations assayed, much faster when the copper concentration increased. The addition of different agents which complex copper allowed the resuscitation (restoration of culturability) of copper-induced VBNC cells. Finally, copper-induced VBNC cells were virulent only for the first 5 days, while resuscitated cells always regained their pathogenicity on immature fruits over 9 months. These results have shown, for the first time, the induction of the VBNC state in E. amylovora as a survival strategy against copper.

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First record of Vibrio vulnificus biotype 2 from diseased European eel, Anguilla anguilla L.

Biosca

Amaro

Esteve

et al. 1991

Journal of Fish Diseases

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Vibrio vulnificus biotype 2, pathogenic for eels, is also an opportunistic pathogen for humans

Amaro

Biosca

1996

Appl Environ Microbiol

185

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We report that the eel pathogen Vibrio vulnificus biotype 2 is also an opportunistic pathogen for humans. Results from a detailed comparative study using reference strains of both biotypes revealed that the clinical strain ATCC 33817, originally isolated from a human leg wound and classified as V. vulnificus (no reference on its biotype is noted), belongs to biotype 2 of the species. As a biotype 2 strain, it is negative for indole and pathogenic for eels and mice, harbors two plasmids of high M r s, and belongs to serogroup E, recently proposed as characteristic of biotype 2 strains. In consequence, appropriate measures must be taken by consumers, particularly by those running a health risk, and by fish farmers, above all when manipulating eels during epizootic outbreaks.

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Elena G. Biosca

Comparative study of phenotypic and virulence properties in Vibrio vulnificus biotypes 1 and 2 obtained from a European eel farm experiencing mortalities

Phenotypic characterization of Vibrio vulnificus biotype 2, a lipopolysaccharide-based homogeneous O serogroup within Vibrio vulnificus

Survival Strategy of Erwinia amylovora against Copper: Induction of the Viable-but-Nonculturable State

First record of Vibrio vulnificus biotype 2 from diseased European eel, Anguilla anguilla L.

Vibrio vulnificus biotype 2, pathogenic for eels, is also an opportunistic pathogen for humans

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