Steroidal gylcosides are the predominant metabolites of starfish and are responsible for various biological activities. Some of these activities are recognized as a part of self-defense mechanism of starfish. Cholesterol-binding ability was evaluated with seven starfish crude extracts, where significantly (p < 0.05) highest ability (34%) was observed in Asterias amurensis and the lowest (16%) was attributed in Distolasterias nippon. To characterize the active compound exists in crude saponin from A. amurensis, the extract was subjected to thin layer chromatography following silica gel column chromatography. As the results, seven fractions (fr. A-G) were separated and frs. D and F demonstrated the highest cholesterol-binding ability (32% and 33%, respectively), equivalent to that of the A. amurensis extract. The isolated component (fr. F) was further separated (fr. F1-F3) for structural analysis. Based on cholesterol-binding ability result (29%), fr. F2 was analysed by matrix-assisted laser desorption ionization-time-of-flight mass spectroscopy (MALDI-TOF MS) and then nuclear magnetic resonance spectroscopy (NMR). The compound was identified as thornasteroside A, one of the major bioactive compounds already found in A. amurensis. The discovery of a saponin with cholesterol-binding ability has important implications not only for the utilization of starfish but also for food and pharmaceutical research.
Keywords: Cholesterol-binding ability; MALDI-TOF MS. NMR; Starfish saponin; Thornasteroside A.
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