Abstract
The manuscript investigated the isolation, characterization and anti-infective potential of valinomycin (3), streptodepsipeptide P11A (2), streptodepsipeptide P11B (1), and one novel valinomycin analogue, streptodepsipeptide SV21 (4), which were all produced by the Gram-positive strain Streptomyces cavourensis SV 21. Although the exact molecular weight and major molecular fragments were recently reported for compound 4, its structure elucidation was not based on compound isolation and spectroscopic techniques. We successfully isolated and elucidated the structure based on the MS2 fragmentation pathways as well as 1H and 13C NMR spectra and found that the previously reported structure of compound 4 differs from our analysis. Our findings showed the importance of isolation and structure elucidation of bacterial compounds in the era of fast omics technologies. The here performed anti-infective assays showed moderate to potent activity against fungi, multi drug resistant (MDR) bacteria and infectivity of the Hepatitis C Virus (HCV). While compounds 2, 3 and 4 revealed potent antiviral activity, the observed minor cytotoxicity needs further investigation. Furthermore, the here performed anti-infective assays disclosed that the symmetry of the valinomycin molecule is most important for its bioactivity, a fact that has not been reported so far.
Highlights
With the strong demand to find new antibiotics to solve the antibiotic resistance crisis, research on marine natural products expanded in the last decade to include marine bacteria
The results showed that exact masses of compounds 1–3 closely matched with streptodepsipeptide P11B ([M] = 1082.5988), P11A
Further analysis, using the GNPS MASST database, on the precursor (MS1 ) and product ion (MS2 ) spectral data (Figures S2–S5) showed that compounds 1–4 were related to valinomycin with cosine scores ranking all above 0.7, while considering more than 40 major product ion peaks
Summary
Valinomycin is considered as one of the ionophore antibiotics This bioactive compound has both a hydrophobic and hydrophilic moiety, which is necessary to bind and shield ions, and allows the molecule to transport those ions through the lipophilic membrane barrier of living cells. The probability to transport ions through membranes affects osmoregulatory processes, and affects the homeostasis of the cell, which in turn may result in an increased level of toxicity or even death for the organism [10,11] This cyclodepsipeptide was reported to have many bioactivities, such as antitumor, antibacterial, antibabesia, and antifungal activity [6,9,12,13]. The anti-infective activities of compounds 1–4 against multi drug-resistant (MDR) bacteria (Bacillus subtilis, Staphylococcus aureus), fungi (Candida albicans, Mucor hiemalis, Rhodoturula glutinis) and the Hepatitis C Virus (HCV) were identified
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