Paramoeba atlantica as a Natural Intracellular Niche for Vibrios in Marine Ecosystems
ABSTRACT Vibrios are a group of aquatic bacteria that include diverse pathogens for humans and marine animals. In their natural environment, these bacteria are subject to predation by heterotrophic protozoa, including free‐living amoebae. Previous studies suggested that some amoebae species can prom...
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| Published in | Environmental microbiology Vol. 27; no. 6; pp. e70122 - n/a |
|---|---|
| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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Hoboken, USA
John Wiley & Sons, Inc
01.06.2025
Wiley Subscription Services, Inc Society for Applied Microbiology and Wiley-Blackwell |
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| Abstract | ABSTRACT
Vibrios are a group of aquatic bacteria that include diverse pathogens for humans and marine animals. In their natural environment, these bacteria are subject to predation by heterotrophic protozoa, including free‐living amoebae. Previous studies suggested that some amoebae species can promote the environmental persistence and dissemination of pathogenic vibrios. However, most research has focused on model amoebae derived from freshwater habitats despite the prevalence and diversity of amoebae and vibrios in marine ecosystems. This study identifies a natural association between the marine amoeba Paramoeba atlantica and Vibrio bathopelagicus, a member of the Splendidus clade. Investigations at the cellular level revealed that V. bathopelagicus can resist digestion by P. atlantica and can swim and replicate in large digestive vacuoles for hours before being released by exocytosis. Furthermore, V. bathopelagicus exhibits virulence potential against oysters. Intravacuolar survival in P. atlantica was observed for various vibrios, and screening of clonally isolated free‐living marine amoebae revealed that many Paramoebidae are found associated with vibrios. Our findings show that Paramoebidae can act as a widespread intracellular reservoir for diverse vibrios. This provides new insights into the environmental intracellular niches and opportunistic strategies of vibrios in marine ecosystems.
Various vibrios can colonise a large vacuole called VCV (Vibrio‐containing‐vacuole) within Paramoeba atlantica. The VCVs acidify and the vibrios multiply and remain alive inside the VCVs for hours. The vibrio found associated with Paramoeba atlantica can be pathogenic to oysters, suggesting that Paramoebidae are a potential reservoir for pathogens. |
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| AbstractList | Vibrios are a group of aquatic bacteria that include diverse pathogens for humans and marine animals. In their natural environment, these bacteria are subject to predation by heterotrophic protozoa, including free-living amoebae. Previous studies suggested that some amoebae species can promote the environmental persistence and dissemination of pathogenic vibrios. However, most research has focused on model amoebae derived from freshwater habitats despite the prevalence and diversity of amoebae and vibrios in marine ecosystems. This study identifies a natural association between the marine amoeba Paramoeba atlantica and Vibrio bathopelagicus, a member of the Splendidus clade. Investigations at the cellular level revealed that V. bathopelagicus can resist digestion by P. atlantica and can swim and replicate in large digestive vacuoles for hours before being released by exocytosis. Furthermore, V. bathopelagicus exhibits virulence potential against oysters. Intravacuolar survival in P. atlantica was observed for various vibrios, and screening of clonally isolated free-living marine amoebae revealed that many Paramoebidae are found associated with vibrios. Our findings show that Paramoebidae can act as a widespread intracellular reservoir for diverse vibrios. This provides new insights into the environmental intracellular niches and opportunistic strategies of vibrios in marine ecosystems. Vibrios are a group of aquatic bacteria that include diverse pathogens for humans and marine animals. In their natural environment, these bacteria are subject to predation by heterotrophic protozoa, including free‐living amoebae. Previous studies suggested that some amoebae species can promote the environmental persistence and dissemination of pathogenic vibrios. However, most research has focused on model amoebae derived from freshwater habitats despite the prevalence and diversity of amoebae and vibrios in marine ecosystems. This study identifies a natural association between the marine amoeba Paramoeba atlantica and Vibrio bathopelagicus, a member of the Splendidus clade. Investigations at the cellular level revealed that V. bathopelagicus can resist digestion by P. atlantica and can swim and replicate in large digestive vacuoles for hours before being released by exocytosis. Furthermore, V. bathopelagicus exhibits virulence potential against oysters. Intravacuolar survival in P. atlantica was observed for various vibrios, and screening of clonally isolated free‐living marine amoebae revealed that many Paramoebidae are found associated with vibrios. Our findings show that Paramoebidae can act as a widespread intracellular reservoir for diverse vibrios. This provides new insights into the environmental intracellular niches and opportunistic strategies of vibrios in marine ecosystems. Various vibrios can colonise a large vacuole called VCV (Vibrio‐containing‐vacuole) within Paramoeba atlantica . The VCVs acidify and the vibrios multiply and remain alive inside the VCVs for hours. The vibrio found associated with Paramoeba atlantica can be pathogenic to oysters, suggesting that Paramoebidae are a potential reservoir for pathogens. Vibrios are a group of aquatic bacteria that include diverse pathogens for humans and marine animals. In their natural environment, these bacteria are subject to predation by heterotrophic protozoa, including free-living amoebae. Previous studies suggested that some amoebae species can promote the environmental persistence and dissemination of pathogenic vibrios. However, most research has focused on model amoebae derived from freshwater habitats despite the prevalence and diversity of amoebae and vibrios in marine ecosystems. This study identifies a natural association between the marine amoeba Paramoeba atlantica and Vibrio bathopelagicus, a member of the Splendidus clade. Investigations at the cellular level revealed that V. bathopelagicus can resist digestion by P. atlantica and can swim and replicate in large digestive vacuoles for hours before being released by exocytosis. Furthermore, V. bathopelagicus exhibits virulence potential against oysters. Intravacuolar survival in P. atlantica was observed for various vibrios, and screening of clonally isolated free-living marine amoebae revealed that many Paramoebidae are found associated with vibrios. Our findings show that Paramoebidae can act as a widespread intracellular reservoir for diverse vibrios. This provides new insights into the environmental intracellular niches and opportunistic strategies of vibrios in marine ecosystems.Vibrios are a group of aquatic bacteria that include diverse pathogens for humans and marine animals. In their natural environment, these bacteria are subject to predation by heterotrophic protozoa, including free-living amoebae. Previous studies suggested that some amoebae species can promote the environmental persistence and dissemination of pathogenic vibrios. However, most research has focused on model amoebae derived from freshwater habitats despite the prevalence and diversity of amoebae and vibrios in marine ecosystems. This study identifies a natural association between the marine amoeba Paramoeba atlantica and Vibrio bathopelagicus, a member of the Splendidus clade. Investigations at the cellular level revealed that V. bathopelagicus can resist digestion by P. atlantica and can swim and replicate in large digestive vacuoles for hours before being released by exocytosis. Furthermore, V. bathopelagicus exhibits virulence potential against oysters. Intravacuolar survival in P. atlantica was observed for various vibrios, and screening of clonally isolated free-living marine amoebae revealed that many Paramoebidae are found associated with vibrios. Our findings show that Paramoebidae can act as a widespread intracellular reservoir for diverse vibrios. This provides new insights into the environmental intracellular niches and opportunistic strategies of vibrios in marine ecosystems. ABSTRACT Vibrios are a group of aquatic bacteria that include diverse pathogens for humans and marine animals. In their natural environment, these bacteria are subject to predation by heterotrophic protozoa, including free‐living amoebae. Previous studies suggested that some amoebae species can promote the environmental persistence and dissemination of pathogenic vibrios. However, most research has focused on model amoebae derived from freshwater habitats despite the prevalence and diversity of amoebae and vibrios in marine ecosystems. This study identifies a natural association between the marine amoeba Paramoeba atlantica and Vibrio bathopelagicus, a member of the Splendidus clade. Investigations at the cellular level revealed that V. bathopelagicus can resist digestion by P. atlantica and can swim and replicate in large digestive vacuoles for hours before being released by exocytosis. Furthermore, V. bathopelagicus exhibits virulence potential against oysters. Intravacuolar survival in P. atlantica was observed for various vibrios, and screening of clonally isolated free‐living marine amoebae revealed that many Paramoebidae are found associated with vibrios. Our findings show that Paramoebidae can act as a widespread intracellular reservoir for diverse vibrios. This provides new insights into the environmental intracellular niches and opportunistic strategies of vibrios in marine ecosystems. Various vibrios can colonise a large vacuole called VCV (Vibrio‐containing‐vacuole) within Paramoeba atlantica. The VCVs acidify and the vibrios multiply and remain alive inside the VCVs for hours. The vibrio found associated with Paramoeba atlantica can be pathogenic to oysters, suggesting that Paramoebidae are a potential reservoir for pathogens. |
| Author | Travers, Marie‐Agnès Soldati, Thierry Robino, Etienne Perret, Angélique Charrière, Guillaume M. Pouzadoux, Juliette Onillon, Laura Delafont, Vincent Dufau, Anaïs Amraoui, Hajar Romatif, Océane |
| AuthorAffiliation | 3 Département de Biochimie, Faculté des Sciences Université de Genève, Sciences II Genève Switzerland 2 EBI, UMR 7267, CNRS, University of Poitiers Poitiers France 1 IHPE UMR 5244, University of Montpellier, CNRS, Ifremer, University of Perpignan Via Domitia Montpellier France |
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| Notes | Funding The present study was supported, by the Ec2co‐CNRS funded VibrAm and Vintage projects, by Labex CEMEB Reservib project, and by Ifremer, University of Montpellier and University of Perpignan via Domitia. This study is set within the framework of the ‘Laboratoire d'Excellence (LabEx)’ TULIP(ANR‐10‐LABX‐41). Laura Onillon was supported by an Ifremer scholarship. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 PMCID: PMC12173713 Funding: The present study was supported, by the Ec2co‐CNRS funded VibrAm and Vintage projects, by Labex CEMEB Reservib project, and by Ifremer, University of Montpellier and University of Perpignan via Domitia. This study is set within the framework of the ‘Laboratoire d'Excellence (LabEx)’ TULIP(ANR‐10‐LABX‐41). Laura Onillon was supported by an Ifremer scholarship. |
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| Snippet | ABSTRACT
Vibrios are a group of aquatic bacteria that include diverse pathogens for humans and marine animals. In their natural environment, these bacteria are... Vibrios are a group of aquatic bacteria that include diverse pathogens for humans and marine animals. In their natural environment, these bacteria are subject... |
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| SubjectTerms | Amoeba Animals Aquatic bacteria Aquatic ecosystems Aquatic habitats Bacteria Bacteriology Ecology, environment Ecosystem Ecosystems Exocytosis Freshwater Freshwater environments Inland water environment Interspecific relationships Intracellular intracellular niche Life Sciences Marine animals Marine ecosystems Marine molluscs Marine organisms Microbiology and Parasitology Natural environment Niches Ostreidae - microbiology Ostreidae - parasitology Oysters Paramoeba Paramoebidae Predation Protistology Protozoa Seawater - microbiology Seawater - parasitology Shellfish Symbiosis Vacuoles Vibrio - isolation & purification Vibrio - pathogenicity Vibrio - physiology vibrios Virulence |
| Title | Paramoeba atlantica as a Natural Intracellular Niche for Vibrios in Marine Ecosystems |
| URI | https://onlinelibrary.wiley.com/doi/abs/10.1111%2F1462-2920.70122 https://www.ncbi.nlm.nih.gov/pubmed/40527522 https://www.proquest.com/docview/3228991287 https://www.proquest.com/docview/3219856346 https://hal.science/hal-05135735 https://pubmed.ncbi.nlm.nih.gov/PMC12173713 |
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