Interaction between sterols and amphidinol 3 in lipid bilayers investigated by membrane-permeabilizing activities, surface plasmon resonance, and solid-state NMR
College
College of Science
Department/Unit
Chemistry
Document Type
Archival Material/Manuscript
Publication Date
2013
Abstract
Marine dinoflagellates are rich source of biologically-active and structurally-unique secondary metabolites. Among those that show promising potential is pharmaceutically-relevant agents are antifungal amphidinols (AMs), a class of polyhydroxy polyene compounds isolated from Amphidium klebsii. To gain further insight the mechanism of sterol-recognition of AM3 in lipid bilayers, its activity in epicholesterol-containing membranes was assessed by calcein leakage. Results revealed that AM3 is devoid of membrane-permeabilizing activity in such liposomes indicating a probable stereoselective interaction with 3β-hydroxy group cholesterol. This preference towards the 3β-ol isomer likely results from a higher affinity with AM3 as was evidenced from surface plasmon resonance measurements. Reduction of the characteristic quadropolar splitting in solid-sate 2H NMR experiments using deuterated sterols (at the C3 position) showed that this increase in membrane affinity is brought about by direct intermolecular interaction between AM3 and 3β-hydroxysterols in membranes. However, similar spectral changes were also observed with deuterated epischolesterol, albeit less pronounced, indicating that AM3 may also recognize sterol backbone to a certain extent, but that pore formation requires the presence of the 3β-OH group. Additionally, solid state 31P NMR of cholesterol-containing POPC membranes in the presence of AM3 did not reveal isotropic signals, pointing to a possibility of permeabilization via formation of aggregates as in a barrel-stave pore.
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Recommended Citation
Espiritu, R. A., Matsumori, N., Tsuda, M., & Murata, M. (2013). Interaction between sterols and amphidinol 3 in lipid bilayers investigated by membrane-permeabilizing activities, surface plasmon resonance, and solid-state NMR. Retrieved from https://animorepository.dlsu.edu.ph/faculty_research/5116
Keywords
Dinoflagellates—Composition; Surface plasmon resonance; Nuclear magnetic resonance
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Note
Presented at the 15th Asian Chemical Congress, 19-23 August 2013, Resorts World Sentosa Singapore