Natural products isolated from species of Halgerda bergh, 1880 (Mollusca: Nudibranchia) and their ecological and evolutionary implications.

Chemical investigations of five species of molluscan nudibranchs, Halgerda, collected from Australia and Japan were carried out. We identified a novel tryptophan derivative halgerdamine (1) along with the known compounds trigonellin (3), esmodil (4), zooanemonin (5), and C2-alpha-D-mannosylpyranosyl-L-tryptophan (2) from Halgerda aurantiomaculata. C2-alpha-D-mannosylpyranosyl-L-tryptophan (2) was previously thought to be a by-product of tryptophan metabolism exclusive to humans. The only other chordates reported to contain this compound are a number of ascidian species from New Caledonia and Australia including Atriolum robustum and Leptoclinides dubius. The occurrence of 2 in a mollusc has not been previously reported. Structure elucidation of 1 was achieved by using high-field 2D NMR spectroscopy. No secondary metabolites were detected in extracts from five of the six other species studied, whereas Halgerda gunnessi contained mixtures of acylated tetrasaccharides. The compounds isolated from Halgerda are different from those found in the close sister taxon, Asteronotus. Specifically, species of Halgerda contain no terpenes, spirodysin, or bromophenols, as does Asteronotus. Furthermore, in contrast to other members of the Nudibranchia such as Chromodoris and Phyllidia, in which compound yields are quite high, several cryptic species of Halgerda seem to lack secondary metabolites, whereas the two highly conspicuous species yield mildly cytotoxic MeOH extracts. Our findings support recent hypotheses regarding progressive evolution of opisthobranchs. In particular, opisthobranchs have evolved to exploit a wider range of food and metabolites than did their ancestors, a demonstration of physiological innovation. Some species of Halgerda may not be chemically protected either via de novo synthesis or by sequestering particularly toxic compounds.

Esmodil: an acetylcholine mimetic resurfaces in a Southern Australian marine sponge Raspailia (Raspailia) sp.

Bioassay directed fractionation of a Raspailia (Raspailia) sp. (Order Poecilosclerida; Family Raspailiidae) collected during scientific trawling operations off the Northern Rottnest Shelf yielded as nematocidal agents the known metabolites, phorboxazoles A (1) and B (2). Further examination revealed the new natural product but known synthetic compound, esmodil (3). The structure for 3 was confirmed by spectroscopic analysis and total synthesis.