Biosynthesis of novel desferrioxamine derivatives requires unprecedented crosstalk between separate NRPS-independent siderophore pathways

Author:

Su Li12,Souaibou Yaouba12,Hôtel Laurence1,Paris Cédric3,Weissman Kira J.2ORCID,Aigle Bertrand1ORCID

Affiliation:

1. Université de Lorraine, INRAE, DynAMic, Nancy, France

2. Université de Lorraine, CNRS, IMoPA, Nancy, France

3. Université de Lorraine, LIBio, Nancy, France

Abstract

Iron-chelating siderophores play important roles for their bacterial producers in the environment, but they have also found application in human medicine both in iron chelation therapy to prevent iron overload and in diagnostic imaging, as well as in biotechnology, including as agents for biocontrol of pathogens and bioremediation. In this study, we report the discovery of three novel series of related siderophores, whose biosynthesis depends on the interplay between two NRPS-independent (NIS) pathways in the producing organism S. ambofaciens— the first example to our knowledge of such functional cross-talk. We further reveal that two of these series correspond to acyl-desferrioxamines which incorporate four or five hydroxamate units. Although the biological importance of these novel derivatives is unknown, the increased chelating capacity of these metabolites may find utility in diagnostic imaging (for instance, 89 Zr-based immuno-PET imaging) and other applications of metal chelators.

Funder

IMPACT Biomolecules, I-SITE Lorraine Université d'Excellence

Publisher

American Society for Microbiology

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