Non-specific interference of cobalt with siderophore-dependent iron uptake pathways

Ana Carballido Lopez; Olivier Cunrath; Anne Forster; Julien Pérard; Gwenaëlle Graulier; Rachel Legendre; Hugo Varet; Odile Sismeiro; Quentin Perraud; Bénédicte Pesset; Pamela Saint Auguste; Dirk Bumann; Gaëtan L. A. Mislin; Jean Yves Coppee; Isabelle Michaud-Soret; Pierre Fechter; Isabelle J. Schalk

doi:10.1039/C9MT00195F

Non-specific interference of cobalt with siderophore-dependent iron uptake pathways†

Ana Carballido Lopez,^ab Olivier Cunrath,

^ab Anne Forster,^ab Julien Pérard,

^c Gwenaëlle Graulier,

^ab Rachel Legendre,

^de Hugo Varet,

^de Odile Sismeiro,^d Quentin Perraud,

^ab Bénédicte Pesset,^ab Pamela Saint Auguste,^f Dirk Bumann,

^f Gaëtan L. A. Mislin,

^ab Jean Yves Coppee,

^d Isabelle Michaud-Soret,

^c Pierre Fechter

*^ab and Isabelle J. Schalk

*^ab

Author affiliations

* Corresponding authors

^a Université de Strasbourg, UMR7242, ESBS, Bld Sébastien Brant, F-67413 Illkirch, Strasbourg, France
E-mail: p.fechter@unistra.fr, isabelle.schalk@unistra.fr
Fax: +33 3 68 85 48 29
Tel: +33 3 68 85 47 19

^b CNRS, UMR7242, ESBS, Bld Sébastien Brant, F-67413 Illkirch, Strasbourg, France

^c Univ-Grenoble alpes, CNRS, CEA, BIG, CBM, CEA-Grenoble, 38000 Grenoble, France

^d Transcriptome and EpiGenome, Biomics, Institut Pasteur, 28 rue du Docteur Roux, 75015 Paris, France

^e Institut Pasteur, Bioinformatics and Biostatistics Hub, C3BI, USR 3756 IP CNRS, Paris, France

^f Focal Area Infection Biology, Biozentrum, University of Basel, Basel, Switzerland

Abstract

Much data shows that biological metals other than Fe³⁺ can interfere with Fe³⁺ acquisition by siderophores in bacteria. Siderophores are small Fe³⁺ chelators produced by the microorganisms to obtain access to Fe³⁺. Here, we show that Co²⁺ is imported into Pseudomonas aeruginosa cells in a complex with the siderophore pyochelin (PCH) by the ferri-PCH outer membrane transporter FptA. Moreover, the presence of Co²⁺ in the bacterial environment strongly affects the production of PCH. Proteomic and transcriptomic approaches showed that a decrease of PCH production is associated with repression of the expression of the genes involved in PCH biosynthesis. We used various molecular biology approaches to show that this repression is not Fur-(ferric uptake transcriptional regulator) dependent but due to competition of PCH–Co with PCH–Fe for PchR (transcriptional activator), thus inhibiting the formation of PchR–PCH–Fe and consequently the expression of the PCH genes. We observed a similar mechanism of repression of PCH production, but to a lesser extent, by Ni²⁺, but not for Zn²⁺, Cu²⁺, or Mn²⁺. Here, we show, for the first time at a molecular level, how the presence of a contaminant metal can interfere with Fe³⁺ acquisition by the siderophores PCH and PVD.

Metallomics

Non-specific interference of cobalt with siderophore-dependent iron uptake pathways†

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