Choose your weaponry: Selective storage of a single toxic compound, latrunculin a, by closely related nudibranch molluscs

Karen L. Cheney, Andrew White, I. Wayan Mudianta, Anne E. Winters, Michelle Quezada, Robert J. Capon, Ernesto Mollo, Mary J. Garson

Research output: Contribution to journalArticlepeer-review

51 Citations (Scopus)

Abstract

Natural products play an invaluable role as a starting point in the drug discovery process, and plants and animals use many interesting biologically active natural products as a chemical defense mechanism against predators. Among marine organisms, many nudibranch gastropods are known to derive defensive metabolites from the sponges they eat. Here we investigated the putative sequestration of the toxic compound latrunculin A-a 16-membered macrolide that prevents actin polymerization within cellular processes-which has been identified from sponge sources, by five closely related nudibranch molluscs of the genus Chromodoris. Only latrunculin A was present in the rim of the mantle of these species, where storage reservoirs containing secondary metabolites are located, whilst a variety of secondary metabolites were found in their viscera. The species studied thus selectively accumulate latrunculin A in the part of the mantle that is more exposed to potential predators. This study also demonstrates that latrunculin-containing sponges are not their sole food source. Latrunculin A was found to be several times more potent than other compounds present in these species of nudibranchs when tested by in vitro and in vivo toxicity assays. Anti-feedant assays also indicated that latrunculin A was unpalatable to rock pool shrimps, in a dose-dependent manner. These findings led us to propose that this group of nudibranchs has evolved means both to protect themselves from the toxicity of latrunculin A, and to accumulate this compound in the mantle rim for defensive purposes. The precise mechanism by which the nudibranchs sequester such a potent compound from sponges without disrupting their own key physiological processes is unclear, but this work paves the way for future studies in this direction. Finally, the possible occurrence of both visual and chemosensory Möllerian mimicry in the studied species is discussed.

Original languageEnglish
Article numberA1222
JournalPLoS ONE
Volume11
Issue number1
DOIs
Publication statusPublished - 1 Jan 2016
Externally publishedYes

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