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Leptochelins A–C, Cytotoxic Metallophores Produced by Geographically Dispersed Leptothoe Strains of Marine Cyanobacteria
- Avalon, Nicole E;
- Reis, Mariana A;
- Thornburg, Christopher C;
- Williamson, R Thomas;
- Petras, Daniel;
- Aron, Allegra T;
- Neuhaus, George F;
- Al-Hindy, Momen;
- Mitrevska, Jana;
- Ferreira, Leonor;
- Morais, João;
- Abiead, Yasin El;
- Glukhov, Evgenia;
- Alexander, Kelsey L;
- Vulpanovici, F Alexandra;
- Bertin, Matthew J;
- Whitner, Syrena;
- Choi, Hyukjae;
- Spengler, Gabriella;
- Blinov, Kirill;
- Almohammadi, Ameen M;
- Shaala, Lamiaa A;
- Kew, William R;
- Paša-Tolić, Ljiljana;
- Youssef, Diaa TA;
- Dorrestein, Pieter C;
- Vasconcelos, Vitor;
- Gerwick, Lena;
- McPhail, Kerry L;
- Gerwick, William H
- et al.
Published Web Location
https://doi.org/10.1021/jacs.4c05399Abstract
Metals are important cofactors in the metabolic processes of cyanobacteria, including photosynthesis, cellular respiration, DNA replication, and the biosynthesis of primary and secondary metabolites. In adaptation to the marine environment, cyanobacteria use metallophores to acquire trace metals when necessary as well as to reduce potential toxicity from excessive metal concentrations. Leptochelins A-C were identified as structurally novel metallophores from three geographically dispersed cyanobacteria of the genus Leptothoe. Determination of the complex structures of these metabolites presented numerous challenges, but they were ultimately solved using integrated data from NMR, mass spectrometry and deductions from the biosynthetic gene cluster. The leptochelins are comprised of halogenated linear NRPS-PKS hybrid products with multiple heterocycles that have potential for hexadentate and tetradentate coordination with metal ions. The genomes of the three leptochelin producers were sequenced, and retrobiosynthetic analysis revealed one candidate biosynthetic gene cluster (BGC) consistent with the structure of leptochelin. The putative BGC is highly homologous in all three Leptothoe strains, and all possess genetic signatures associated with metallophores. Postcolumn infusion of metals using an LC-MS metabolomics workflow performed with leptochelins A and B revealed promiscuous binding of iron, copper, cobalt, and zinc, with greatest preference for copper. Iron depletion and copper toxicity experiments support the hypothesis that leptochelin metallophores may play key ecological roles in iron acquisition and in copper detoxification. In addition, the leptochelins possess significant cytotoxicity against several cancer cell lines.
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