Susceptibility to Antibiotics of Vibrio sp. AO1 Growing in Pure Culture or in Association with its Hydroid Host Aglaophenia octodonta (Cnidaria, Hydrozoa)

Vibrio harveyi is the major causal organism of vibriosis, causing potential devastation to diverse ranges of marine invertebrates over a wide geographical area. These microorganisms, however, are phenotypically diverse, and many of the isolates are also resistant to multiple antibiotics. In a previo...

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Bibliographic Details
Published in:Microbial ecology 2010-04, Vol.59 (3), p.555-562
Main Authors: Stabili, Loredana, Gravili, Cinzia, Boero, Ferdinando, Tredici, Salvatore M, Alifano, Pietro
Format: Article
Language:English
Subjects:
Aglaophenia octodonta
Animals
Anti-Bacterial Agents - pharmacology
Antibiotics
Aquaculture
Bacteria
Biofilms
Biological and medical sciences
Biomedical and Life Sciences
Cnidaria
Drug Resistance, Multiple, Bacterial
Ecology
Fish culture
Fluorescence
Fundamental and applied biological sciences. Psychology
Geoecology/Natural Processes
Heterogeneity
Hydrozoa
Hydrozoa - microbiology
Life Sciences
Mariculture
Marine
Marine invertebrates
Microbial Ecology
Microbial Sensitivity Tests
Microbiology
MICROBIOLOGY OF AQUATIC SYSTEMS
Microcosms
Microorganisms
Nature Conservation
Sea water
Vibrio
Vibrio - drug effects
Vibrio harveyi
Water Quality/Water Pollution
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Summary:Vibrio harveyi is the major causal organism of vibriosis, causing potential devastation to diverse ranges of marine invertebrates over a wide geographical area. These microorganisms, however, are phenotypically diverse, and many of the isolates are also resistant to multiple antibiotics. In a previous study, we described a previously unknown association between Vibrio sp. AO1, a luminous bacterium related to the species V. harveyi, and the benthic hydrozoan Aglaophenia octodonta. In this study, we analyzed the susceptibility to antibiotics (ampicillin, streptomycin, tetracycline, or co-trimoxazole = mix of sulfamethoxazole and trimetoprim) of Vibrio sp. AO1 growing in pure culture or in association with its hydroid host by using microcosm experiments. The results of minimum inhibitory concentration (MIC) experiments demonstrated that Vibrio sp. AO1 was highly resistant to ampicillin and streptomycin in pure culture. Nevertheless, these antibiotics, when used at sub-MIC values, significantly reduced the hydroid fluorescence. Co-trimoxazole showed the highest inhibitory effect on fluorescence of A. octodonta. However, in all treatments, the fluorescence was reduced after 48 h, but never disappeared completely around the folds along the hydrocaulus and at the base of the hydrothecae of A. octodonta when the antibiotic was used at concentration completely inhibiting growth in vitro. The apparent discrepancy between the MIC data and the fluorescence patterns may be due to either heterogeneity of the bacterial population in terms of antibiotic susceptibility or specific chemical-physical conditions of the hydroid microenvironment that may decrease the antibiotic susceptibility of the whole population. The latter hypothesis is supported by scanning electron microscope evidence for development of bacterial biofilm on the hydroid surface. On the basis of the results obtained, we infer that A. octodonta might behave as a reservoir of antibiotic multiresistant bacteria, increasing the risk of their transfer into aquaculture farms.
ISSN:0095-3628
1432-184X
DOI:10.1007/s00248-009-9605-x