Intracellular localisation and innate immune responses following Francisella noatunensis infection of Atlantic cod ( Gadus morhua) macrophages

The facultative intracellular bacterium Francisella noatunensis causes francisellosis in Atlantic cod ( Gadus morhua), but little is known about its survival strategies or how these bacteria evade the host immune response. In this study we show intracellular localisation of F. noatunensis in cod mac...

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Bibliographic Details
Published in:Fish & shellfish immunology 2011-12, Vol.31 (6), p.993-1004
Main Authors: Bakkemo, Kathrine R., Mikkelsen, Helene, Bordevik, Marianne, Torgersen, Jacob, Winther-Larsen, Hanne C., Vanberg, Christin, Olsen, Randi, Johansen, Lill-Heidi, Seppola, Marit
Format: Article
Language:English
Subjects:
Animals
Escherichia coli
Fish Diseases - immunology
Fish Diseases - microbiology
Fluorescent Antibody Technique, Indirect - veterinary
Francisella
Francisella noatunensis
Gadus morhua
Gram-Negative Bacterial Infections - immunology
Gram-Negative Bacterial Infections - veterinary
Green Fluorescent Proteins
Immunity, Innate - immunology
Innate immune response
Interleukin-10 - metabolism
Interleukin-1beta - metabolism
Interleukin-8 - metabolism
Intracellular infection
Intracellular Space - microbiology
Lipopolysaccharides
LPS
Macrophages
Macrophages - immunology
Macrophages - microbiology
Marine
Microscopy, Electron, Transmission - veterinary
Microscopy, Immunoelectron - veterinary
Phagosomes - microbiology
Phagosomes - ultrastructure
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Summary:The facultative intracellular bacterium Francisella noatunensis causes francisellosis in Atlantic cod ( Gadus morhua), but little is known about its survival strategies or how these bacteria evade the host immune response. In this study we show intracellular localisation of F. noatunensis in cod macrophages using indirect immunofluorescence techniques and green fluorescent labelled bacteria. Transmission electron microscopy revealed that F. noatunensis was enclosed by a phagosomal membrane during the initial phase of infection. Bacteria were at a later stage of the infection found in large electron-lucent zones, apparently surrounded by a partially intact or disintegrated membrane. Immune electron microscopy demonstrated the release of bacterial derived vesicles from intracellular F. noatunensis, an event suspected of promoting phagosomal membrane degradation and allowing escape of the bacteria to cytoplasm. Studies of macrophages infected with F. noatunensis demonstrated a weak activation of the inflammatory response genes as measured by increased expression of the Interleukin (IL)-1β and IL-8. In comparison, a stronger induction of gene expression was found for the anti-inflammatory IL-10 indicating that the bacterium exhibits a role in down-regulating the inflammatory response. Expression of the p40 subunit of IL-12/IL-17 genes was highly induced during infection suggesting that F. noatunensis promotes T cell polarisation. The host macrophage responses studied here showed low ability to distinguish between live and inactivated bacteria, although other types of responses could be of importance for such discriminations. The immunoreactivity of F. noatunensis lipopolysaccharide (LPS) was very modest, in contrast to the strong capacity of Escherichia coli LPS to induce inflammatory responsive genes. These results suggest that F. noatunensis virulence mechanisms cover many strategies for intracellular survival in cod macrophages. ► F. noatunensis is localised intracellularly in cod macrophages. ► F. noatunensis are enclosed by a phagosomal membrane during the initial phase of infection. ► F. noatunensis are found in large electron-lucent zones during later stages of infection. ► Intracellular bacteria release bacterial derived vesicles. ► Purified F. noatunensis LPS induce a low activation of inflammatory responsive genes compared to E. coli LPS.
ISSN:1050-4648
1095-9947
DOI:10.1016/j.fsi.2011.08.020