Acontia, a Specialised Defensive Structure, Has Low Venom Complexity in Calliactis polypus

Phylum Cnidaria represents a unique group among venomous taxa, with its delivery system organised as individual organelles, known as nematocysts, heterogeneously distributed across morphological structures rather than packaged as a specialised organ. Acontia are packed with large nematocysts that are expelled from sea anemones during aggressive encounters with predatory species and are found in a limited number of species in the superfamily Metridioidea. Little is known about this specialised structure other than the commonly accepted hypothesis of its role in defence and a rudimentary understanding of its toxin content and activity. This study utilised previously published transcriptomic data and new proteomic analyses to expand this knowledge by identifying the venom profile of acontia in Calliactis polypus. Using mass spectrometry, we found limited toxin diversity in the proteome of acontia, with an abundance of a sodium channel toxin type I, and a novel toxin with two ShK-like domains. Additionally, genomic evidence suggests that the proposed novel toxin is ubiquitous across sea anemone lineages. Overall, the venom profile of acontia in Calliactis polypus and the novel toxin identified here provide the basis for future research to define the function of acontial toxins in sea anemones.

Automated summary

The venom delivery system of Phylum Cnidaria is unique, consisting of individual organelles known as nematocysts. Acontia, found in a limited number of sea anemone species, are packed with large nematocysts used for defense. This study identified the venom profile of acontia in Calliactis polypus, revealing limited toxin diversity and a novel toxin with two ShK-like domains. This research provides a foundation for further investigating the function of acontial toxins in sea anemones.