Extensive investigations on marine natural products have shown that marine sponges are nearly inexhaustible sources of new secondary metabolites.1) From a structural viewpoint, various classes of molecules including macrolides, 2) polypeptides, 3) terpenes, 4) steroids, 5) alkaloids, 6) and others 7) have been isolated, and a number of different modes of biological activity have been reported. The sponges belonging to the genus Haliclona are also prolific sources of unique molecules such as manzamines, 8) haliclonamines, 9) haliclonamides, 10) halipeptins, 11) and others. In our continuing search for new cytotoxic metabolites from Indonesian sponges, 12,13) we collected a small sponge belonging to Haliclona at Baubau, Indonesia. After the 1 H-NMR spectrum of a methanolic extract from the sponge indicated the presence of a unique molecule, we examined the chemical contents. In this note we describe the isolation, structure characterization, and bioactivity of the new compound, which we named halioxepine (1).
Results and DiscussionThe sponge (45 g, wet) was soaked in MeOH to provide a crude extract, whose 1 H-NMR spectrum showed the presence of a unique metabolite as one of principal components. The extract was triturated with CH 2 Cl 2 to provide a lipophilic fraction (136.5 mg) followed by purification on silica HPLC to give compound 1 (25.3 mg).Compound 1 Chemical investigations on a sponge Haliclona sp. found a meroditerpene 1 having a new carbon skeleton. By analyzing spectroscopic data, the structure was elucidated to comprise a substituted hydroquinone, a tetrahydrooxepine, and a cyclohexene, and these components were united with C1 and C2 units. Compound 1 showed moderate cytotoxicity against NBT-T2 cells with IC 50 4.8 m mg/ml and also antioxidant activity against 1,1-diphenyl-2-picrylhydrazyl (DPPH) with IC 50 3.2 m mg/ml.
