Symbiotic Bacterial Partners for Chemical Defense are Vertically Transmitted in a Marine Sponge

Marine sponges host diverse symbiotic bacteria, some of which are essential for chemical defense. However, the mechanisms governing the inheritance of these defensive symbionts remain elusive. Here we report the first case of a transmission mechanism for symbionts producing cytotoxins in the sponge Mycale nullarosette, for which we established the full life-cycle cultivation method. The identification of Candidatus Synechomycale tutelaris as the cytotoxins producer enabled us to unveil their vertical transmission to offspring via bacteriocyte-like structures from the embryonic stage. This study demonstrates that sponges have evolved a sophisticated system to ensure the inheritance of significant bacterial partners crucial for host defense, which is likely one of the reasons that sponges have survived throughout the long history of multicellular organisms.