Iron chelation increases the tolerance of Escherichia coli to hyper-replication stress

Godefroid Charbon; Rasmus Nielsen Klitgaard; Charlotte Dahlmann Liboriussen; Peter Waaben Thulstrup; Sonia Ilaria Maffioli; Stefano Donadio; Anders Løbner-Olesen

doi:10.1038/s41598-018-28841-9

Iron chelation increases the tolerance of Escherichia coli to hyper-replication stress

Godefroid Charbon, Rasmus Nielsen Klitgaard, Charlotte Dahlmann Liboriussen, Peter Waaben Thulstrup, Sonia Ilaria Maffioli, Stefano Donadio, Anders Løbner-Olesen

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Abstract

In Escherichia coli, an increase in the frequency of chromosome replication is lethal. In order to identify compounds that affect chromosome replication, we screened for molecules capable of restoring the viability of hyper-replicating cells. We made use of two E. coli strains that over-initiate DNA replication by keeping the DnaA initiator protein in its active ATP bound state. While viable under anaerobic growth or when grown on poor media, these strains become inviable when grown in rich media. Extracts from actinomycetes strains were screened, leading to the identification of deferoxamine (DFO) as the active compound in one of them. We show that DFO does not affect chromosomal replication initiation and suggest that it was identified due to its ability to chelate cellular iron. This limits the formation of reactive oxygen species, reduce oxidative DNA damage and promote processivity of DNA replication. We argue that the benzazepine derivate (±)-6-Chloro-PB hydrobromide acts in a similar manner.

Original language	English
Article number	10550
Journal	Scientific Reports
Volume	8
Issue number	1
Number of pages	14
ISSN	2045-2322
DOIs	https://doi.org/10.1038/s41598-018-28841-9
Publication status	Published - 1 Dec 2018

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Iron chelation increases the tolerance of Escherichia coli to hyper-replication stressFinal published version, 2.22 MBLicence: CC BY

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title = "Iron chelation increases the tolerance of Escherichia coli to hyper-replication stress",

abstract = "In Escherichia coli, an increase in the frequency of chromosome replication is lethal. In order to identify compounds that affect chromosome replication, we screened for molecules capable of restoring the viability of hyper-replicating cells. We made use of two E. coli strains that over-initiate DNA replication by keeping the DnaA initiator protein in its active ATP bound state. While viable under anaerobic growth or when grown on poor media, these strains become inviable when grown in rich media. Extracts from actinomycetes strains were screened, leading to the identification of deferoxamine (DFO) as the active compound in one of them. We show that DFO does not affect chromosomal replication initiation and suggest that it was identified due to its ability to chelate cellular iron. This limits the formation of reactive oxygen species, reduce oxidative DNA damage and promote processivity of DNA replication. We argue that the benzazepine derivate (±)-6-Chloro-PB hydrobromide acts in a similar manner.",

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AU - Charbon, Godefroid

AU - Klitgaard, Rasmus Nielsen

AU - Liboriussen, Charlotte Dahlmann

AU - Thulstrup, Peter Waaben

AU - Maffioli, Sonia Ilaria

AU - Donadio, Stefano

AU - Løbner-Olesen, Anders

PY - 2018/12/1

Y1 - 2018/12/1

N2 - In Escherichia coli, an increase in the frequency of chromosome replication is lethal. In order to identify compounds that affect chromosome replication, we screened for molecules capable of restoring the viability of hyper-replicating cells. We made use of two E. coli strains that over-initiate DNA replication by keeping the DnaA initiator protein in its active ATP bound state. While viable under anaerobic growth or when grown on poor media, these strains become inviable when grown in rich media. Extracts from actinomycetes strains were screened, leading to the identification of deferoxamine (DFO) as the active compound in one of them. We show that DFO does not affect chromosomal replication initiation and suggest that it was identified due to its ability to chelate cellular iron. This limits the formation of reactive oxygen species, reduce oxidative DNA damage and promote processivity of DNA replication. We argue that the benzazepine derivate (±)-6-Chloro-PB hydrobromide acts in a similar manner.

AB - In Escherichia coli, an increase in the frequency of chromosome replication is lethal. In order to identify compounds that affect chromosome replication, we screened for molecules capable of restoring the viability of hyper-replicating cells. We made use of two E. coli strains that over-initiate DNA replication by keeping the DnaA initiator protein in its active ATP bound state. While viable under anaerobic growth or when grown on poor media, these strains become inviable when grown in rich media. Extracts from actinomycetes strains were screened, leading to the identification of deferoxamine (DFO) as the active compound in one of them. We show that DFO does not affect chromosomal replication initiation and suggest that it was identified due to its ability to chelate cellular iron. This limits the formation of reactive oxygen species, reduce oxidative DNA damage and promote processivity of DNA replication. We argue that the benzazepine derivate (±)-6-Chloro-PB hydrobromide acts in a similar manner.

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DO - 10.1038/s41598-018-28841-9

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VL - 8

JO - Scientific Reports

JF - Scientific Reports

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ER -

Iron chelation increases the tolerance of Escherichia coli to hyper-replication stress

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