This work reports the design of polymer micelles with cross-linked ionic cores that display high stability. Block ionomer complexes were utilized as a micellar template for the synthesis of the cross-linked micelles. Such micelles represent hydrophilic nanospheres of core-shell morphology. The core comprises a network of the cross-linked polyanions, which is surrounded by the shell of hydrophilic PEO chains.
Biologically active extracts of the Caribbean sponge Agelas conifera have yielded, in exhaustive studies, the diacetate salts of seven new bromopyrroles (1,(3)(4)(5)(6)(7)(8), as well as that of the known debromooroidin dimer sceptrin (2). These compounds were found to be antiviral and antibacterial and were active in barnacle settlement and biochemical prophage induction assays. The structures assigned were based on spectroscopic comparisons to sceptrin and two-dimensional NMR data. Synthetic bromopyrroles were used to verify bromine substitution patterns. The oxysceptrins (4,5) are characterized by their aminoimidazolinone group, the ageliferins (6-8) by a unique cyclohexene-based skeleton.
Pathogenic microbes can devastate populations of marine plants and animals. Yet, many sessile organisms such as seaweeds and sponges suffer remarkably low levels of microbial infection, despite lacking cell-based immune systems. Antimicrobial defenses of marine organisms are largely uncharacterized, although from a small number of studies it appears that chemical defenses may improve host resistance. In this study, we asked whether the common seaweed Lobophora variegata is chemically defended against potentially deleterious microorganisms. Using bioassayguided fractionation, we isolated and characterized a 22-membered cyclic lactone, lobophorolide (1), of presumed polyketide origin, with sub-M activity against pathogenic and saprophytic marine fungi. Deterrent concentrations of 1 were found in 46 of 51 samples collected from 10 locations in the Bahamas over a 4-year period. Lobophorolide (1) is structurally unprecedented, yet parts of the molecule are related to tolytoxin, the scytophycins, and the swinholides, macrolides previously isolated from terrestrial cyanobacteria and from marine sponges and gastropods. Until now, compounds of this structural class have not been associated with marine macrophytes. Our findings suggest that seaweeds use targeted antimicrobial chemical defense strategies and that secondary metabolites important in the ecological interactions between marine macroorganisms and microorganisms could be a promising source of novel bioactive compounds.
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