A mutualistic model bacterium is lethal to non-symbiotic hosts via the type VI secretion system.

Abstract

What makes a bacterium pathogenic? Since the early days of germ theory, researchers have categorized bacteria as pathogens or non-pathogens, those that cause harm and those that do not, but this binary view is not always accurate. Vibrio fischeri is an exclusive mutualistic symbiont found within the light organs of Hawaiian bobtail squid. This symbiotic interaction requires V. fischeri to utilize a range of behaviors and produce molecules that are often associated with pathogenicity. This juxtaposition of employing "pathogenic" behaviors for a symbiotic relationship led the field to focus on how V. fischeri establishes a beneficial association with its host. In this study, we observe that V. fischeri induces mortality in zebrafish embryos and Artemia nauplii. Non-lethal doses of V. fischeri leads to zebrafish growth delays and phenotypes indicative of disease. Our data also provide evidence that the conserved type VI secretion system on chromosome I (T6SS1) plays a role in the V. fischeri-induced mortality of zebrafish embryos and Artemia nauplii. These results support the hypothesis that the V. fischeri T6SS1 is involved in eukaryotic cell interactions. Despite its traditional view as a beneficial symbiont, we provide evidence that V. fischeri is capable of harming aquatic organisms, indicating its potential to be pathogenic toward non-symbiotic hosts.