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  • Oral Presentation
  • OP-HAMI-004

The endosymbiont Spiroplasma poulsonii increases Drosophila melanogaster resistance to pathogens by enhancing iron sequestration and melanization

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Raum 12

Session

Microbiomes: From Sequence-Based Analyses to Active Strains and Molecules (Part I)

Thema

  • Host-associated microbiomes and microbe-host interactions

Mitwirkende

Marina Serra Canales (Berlin / DE), Alexandra Hrdina (Berlin / DE), Aranzazu Arias-Rojas (Berlin / DE), Dagmar Frahm (Berlin / DE), Igor Iatsenko (Berlin / DE)

Abstract

Facultative endosymbiotic bacteria, such as Wolbachia and Spiroplasma species, are commonly found in association with insects and can dramatically alter their host physiology. Many endosymbionts are defensive and protect their hosts against parasites or pathogens. Despite the widespread nature of defensive insect symbioses and their importance for the ecology and evolution of insects, the mechanisms of symbiont-mediated host protection remain poorly characterized. Here, we utilized the fruit fly Drosophila melanogaster and its facultative endosymbiont Spiroplasma poulsonii to characterize the mechanisms underlying symbiont-mediated host protection against bacterial and fungal pathogens. Our results indicate a variable effect of S. poulsonii on infection outcome, with endosymbiont-harbouring flies being more resistant to Rhyzopus oryzae, Staphylococcus aureus, and Providencia alcalifaciens, but more sensitive or as sensitive as endosymbiont-free flies to the infections with Pseudomonas species. Further focusing on the protective effect, we identified Transferrin-mediated iron sequestration induced by Spiroplasma as being crucial for the defense against R. oryzae and P. alcalifaciens. In case of S. aureus, enhanced melanization in Spiroplasma-harbouring flies plays a major role in the protection. Both iron sequestration and melanization induced by Spiroplasma require the host immune sensor protease Persephone, suggesting a role of proteases secreted by the symbiont in the activation of host defense reactions. Hence, our work reveals a broader defensive range of Spiroplasma than previously appreciated and adds nutritional immunity and melanization to the defensive arsenal of symbionts. We propose that the mechanisms we have identified here may be of broader significance and could apply to other endosymbionts, particularly to Wolbachia, and potentially explain their protective properties.

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