Several Strains, One Disease: Experimental Investigation of Vibrio Aestuarianus Infection Parameters in the Pacific Oyster, Crassostrea Gigas

Overview

Journal Vet Res

Publisher Biomed Central

Specialty Veterinary Medicine

Date 2017 May 28

PMID 28549482

Citations 5

Authors

Marie-Agnes Travers

Delphine Tourbiez

Leila Parizadeh

Philippe Haffner

Angelique Kozic-Djellouli

Mohamed Aboubaker

Marcel Koken

Lionel Degremont

Coralie Lupo

Affiliations

Soon will be listed here.

Abstract

This study investigated oyster infection dynamics by different strains of Vibrio aestuarianus isolated before and after the apparent re-emergence of this pathogen observed in France in 2011. We conducted experiments to compare minimal infective dose, lethal dose 50 and bacterial shedding for six V. aestuarianus strains. Whatever the strain used, mortality was induced in juvenile oysters by intramuscular injection and reached 90-100% of mortality within 5 days. Moreover, bacterial shedding was comparable among strains and reached its maximum after 20 h (≈10 EXP5 bacteria/mL/animal). Similarly, our first estimations of lethal dose 50 were comparable among strains (minimal infective dose around 0.4 × 10EXP5 bacteria/mL and LD50 around 10EXP5 bacteria/mL) by using seawater containing freshly shed bacteria. These results indicate that, at least with these criteria, despite V. aestuarianus strains genetic diversity, the disease process is similar. The strains isolated after the apparent re-emergence of the bacteria in 2011, do not present a more acute virulence phenotype than the reference strains isolated between 2002 and 2007. Finally, our study provides original and noteworthy data indicating that infected oysters shed bacteria at a level above the threshold of LD50 a few days before they die, meaning that infection is expected to spread in a susceptible population.

Citing Articles

Plankton and marine aggregates as transmission vectors for V. aestuarianus 02/041 infecting the pacific oyster Crassostrea gigas.

Doni L, Tassistro G, Oliveri C, Balbi T, Auguste M, Pallavicini A Environ Microbiol Rep. 2023; 15(6):631-641.

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Histopathological and Molecular Study of Pacific Oyster Tissues Provides Insights into Infection Related to Oyster Mortality.

Mandas D, Salati F, Polinas M, Sanna M, Zobba R, Burrai G Pathogens. 2020; 9(6).

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The Sponge-Associated Fungus Eurotium chevalieri MUT 2316 and its Bioactive Molecules: Potential Applications in the Field of Antifouling.

Bovio E, Fauchon M, Toueix Y, Mehiri M, Varese G, Hellio C Mar Biotechnol (NY). 2019; 21(6):743-752.

PMID: 31494811 DOI: 10.1007/s10126-019-09920-y.

Modeling the Transmission of in Pacific Oysters Using Experimental Infection Data.

Lupo C, Travers M, Tourbiez D, Barthelemy C, Beaunee G, Ezanno P Front Vet Sci. 2019; 6:142.

PMID: 31139636 PMC: 6527844. DOI: 10.3389/fvets.2019.00142.

Oyster Farming, Temperature, and Plankton Influence the Dynamics of Pathogenic Vibrios in the Thau Lagoon.

Lopez-Joven C, Rolland J, Haffner P, Caro A, Roques C, Carre C Front Microbiol. 2018; 9:2530.

PMID: 30405583 PMC: 6207591. DOI: 10.3389/fmicb.2018.02530.

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