Abstract
Cyclopeptides usually play a pivotal role, either in the viability or virulence of fungi. Two types of cyclopeptides, six new hydroxamate siderophore cyclohexapeptides (1–6), including acremonpeptides E and F, and their complexes with aluminum and ferric ions; one new cyclic pentapeptolide, aselacin D (9); together with a known compound, aselacin C (10), were isolated and characterized from the sponge-derived fungus Acremonium persicinum F10. In addition, two new siderophore analogues chelating gallium ions (Ga3+), Ga (III)-acremonpeptide E (7) and Ga (III)-acremonpeptide F (8), using isolated acremonpeptides E and F, were prepared. The planar structures of 1–10 were elucidated by HRESIMS and (1D and 2D) NMR. The absolute configurations of amino acids were determined by means of the advanced Marfey’s method and X-ray single-crystal diffraction analysis. X-ray fluorescence (XRF) spectrometer was performed to disclose the elements of compound 1, indicating the existence of aluminum (Al). Al (III)-acremonpeptides E (1), Ga (III)-acremonpeptides E (5), Al (III)-acremonpeptide F (7), and Ga (III)-acremonpeptide F (8) displayed high in vitro anti-fungal activities, which are comparable to amphotericin B, against Aspergillus fumigatus and Aspergillus niger.
Highlights
Hydroxamate-based peptidyl siderophores are the major type in fungi, including the extracellular siderophore, the depsipeptides and coprogen family, and the intracellular siderophore, the ferrichrome family, which enable the uptake of iron from surrounding environment [4]
We report seven new cyclopeptide compounds from Acremonium persicinum F10 derived from marine sponge Phakellia fusca in the South China Sea
Sponge-derived fungal strains were screened by adopting the OSMAC approach; as a result, we found that Acremonium persicinum F10
Summary
ASP2397, a previously reported hydroxamate-based peptidyl siderophore, is a novel natural compound from Acremonium persicinum MF-347833, exhibiting potent fungicidal activity against the invasive Aspergillus genus with unique bacteriostatic mechanism [5,6]. We report seven new cyclopeptide compounds from Acremonium persicinum F10 derived from marine sponge Phakellia fusca in the South China Sea. Originally, sponge-derived fungal strains were screened by adopting the OSMAC (one strain many compounds) approach; as a result, we found that Acremonium persicinum F10. We report seven new cyclopeptide compounds from Acremonium persicinum F10 d rived from marine sponge Phakellia fusca in the South China Sea. Originally, sponge-derived fungal strains were screened by adopting the OSMA of 14.
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