Short-chain aurachin D derivatives are selective inhibitors of E. coli cytochrome bd-I and bd-II oxidases

Melanie Radloff; Isam Elamri; Tamara N. Grund; Luca F. Witte; Katharina F. Hohmann; Sayaka Nakagaki; Hojjat G. Goojani; Hamid Nasiri; Hideto Miyoshi; Dirk Bald; Hao Xie; Junshi Sakamoto; Harald Schwalbe; Schara Safarian

doi:10.1038/s41598-021-03288-7

Short-chain aurachin D derivatives are selective inhibitors of E. coli cytochrome bd-I and bd-II oxidases

Melanie Radloff, Isam Elamri, Tamara N. Grund, Luca F. Witte, Katharina F. Hohmann, Sayaka Nakagaki, Hojjat G. Goojani, Hamid Nasiri, Hideto Miyoshi, Dirk Bald, Hao Xie, Junshi Sakamoto, Harald Schwalbe, Schara Safarian^*

^*Corresponding author for this work

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

Cytochrome bd-type oxidases play a crucial role for survival of pathogenic bacteria during infection and proliferation. This role and the fact that there are no homologues in the mitochondrial respiratory chain qualify cytochrome bd as a potential antimicrobial target. However, few bd oxidase selective inhibitors have been described so far. In this report, inhibitory effects of Aurachin C (AurC-type) and new Aurachin D (AurD-type) derivatives on oxygen reductase activity of isolated terminal bd-I, bd-II and bo₃ oxidases from Escherichia coli were potentiometrically measured using a Clark-type electrode. We synthesized long- (C10, decyl or longer) and short-chain (C4, butyl to C8, octyl) AurD-type compounds and tested this set of molecules towards their selectivity and potency. We confirmed strong inhibition of all three terminal oxidases for AurC-type compounds, whereas the 4(1H)-quinolone scaffold of AurD-type compounds mainly inhibits bd-type oxidases. We assessed a direct effect of chain length on inhibition activity with highest potency and selectivity observed for heptyl AurD-type derivatives. While Aurachin C and Aurachin D are widely considered as selective inhibitors for terminal oxidases, their structure–activity relationship is incompletely understood. This work fills this gap and illustrates how structural differences of Aurachin derivatives determine inhibitory potency and selectivity for bd-type oxidases of E. coli.

Original language	English
Article number	23852
Pages (from-to)	1-9
Number of pages	9
Journal	Scientific Reports
Volume	11
DOIs	https://doi.org/10.1038/s41598-021-03288-7
Publication status	Published - 13 Dec 2021

Bibliographical note

Funding Information:
We would like to thank Hartmut Michel for review and valuable discussions and Robert B. Gennis for providing plasmid and cells. Funding: This work was supported by the Max Planck Society, the Nobel laureate Fellowship of the Max Planck Society, and the Deutsche Forschungsgemeinschaft (Cluster of Excellence Macromolecular Complexes Frankfurt).

Publisher Copyright:
© 2021, The Author(s).

Funding

We would like to thank Hartmut Michel for review and valuable discussions and Robert B. Gennis for providing plasmid and cells. Funding: This work was supported by the Max Planck Society, the Nobel laureate Fellowship of the Max Planck Society, and the Deutsche Forschungsgemeinschaft (Cluster of Excellence Macromolecular Complexes Frankfurt).

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10.1038/s41598-021-03288-7

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Radloff, M., Elamri, I., Grund, T. N., Witte, L. F., Hohmann, K. F., Nakagaki, S., Goojani, H. G., Nasiri, H., Hideto Miyoshi, Bald, D., Xie, H., Sakamoto, J., Schwalbe, H., & Safarian, S. (2021). Short-chain aurachin D derivatives are selective inhibitors of E. coli cytochrome bd-I and bd-II oxidases. Scientific Reports, 11, 1-9. Article 23852. https://doi.org/10.1038/s41598-021-03288-7

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title = "Short-chain aurachin D derivatives are selective inhibitors of E. coli cytochrome bd-I and bd-II oxidases",

abstract = "Cytochrome bd-type oxidases play a crucial role for survival of pathogenic bacteria during infection and proliferation. This role and the fact that there are no homologues in the mitochondrial respiratory chain qualify cytochrome bd as a potential antimicrobial target. However, few bd oxidase selective inhibitors have been described so far. In this report, inhibitory effects of Aurachin C (AurC-type) and new Aurachin D (AurD-type) derivatives on oxygen reductase activity of isolated terminal bd-I, bd-II and bo3 oxidases from Escherichia coli were potentiometrically measured using a Clark-type electrode. We synthesized long- (C10, decyl or longer) and short-chain (C4, butyl to C8, octyl) AurD-type compounds and tested this set of molecules towards their selectivity and potency. We confirmed strong inhibition of all three terminal oxidases for AurC-type compounds, whereas the 4(1H)-quinolone scaffold of AurD-type compounds mainly inhibits bd-type oxidases. We assessed a direct effect of chain length on inhibition activity with highest potency and selectivity observed for heptyl AurD-type derivatives. While Aurachin C and Aurachin D are widely considered as selective inhibitors for terminal oxidases, their structure–activity relationship is incompletely understood. This work fills this gap and illustrates how structural differences of Aurachin derivatives determine inhibitory potency and selectivity for bd-type oxidases of E. coli.",

author = "Melanie Radloff and Isam Elamri and Grund, \{Tamara N.\} and Witte, \{Luca F.\} and Hohmann, \{Katharina F.\} and Sayaka Nakagaki and Goojani, \{Hojjat G.\} and Hamid Nasiri and Hideto Miyoshi and Dirk Bald and Hao Xie and Junshi Sakamoto and Harald Schwalbe and Schara Safarian",

note = "Funding Information: We would like to thank Hartmut Michel for review and valuable discussions and Robert B. Gennis for providing plasmid and cells. Funding: This work was supported by the Max Planck Society, the Nobel laureate Fellowship of the Max Planck Society, and the Deutsche Forschungsgemeinschaft (Cluster of Excellence Macromolecular Complexes Frankfurt). Publisher Copyright: {\textcopyright} 2021, The Author(s).",

year = "2021",

month = dec,

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doi = "10.1038/s41598-021-03288-7",

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Radloff, M, Elamri, I, Grund, TN, Witte, LF, Hohmann, KF, Nakagaki, S, Goojani, HG, Nasiri, H, Hideto Miyoshi, , Bald, D, Xie, H, Sakamoto, J, Schwalbe, H & Safarian, S 2021, 'Short-chain aurachin D derivatives are selective inhibitors of E. coli cytochrome bd-I and bd-II oxidases', Scientific Reports, vol. 11, 23852, pp. 1-9. https://doi.org/10.1038/s41598-021-03288-7

TY - JOUR

T1 - Short-chain aurachin D derivatives are selective inhibitors of E. coli cytochrome bd-I and bd-II oxidases

AU - Radloff, Melanie

AU - Elamri, Isam

AU - Grund, Tamara N.

AU - Witte, Luca F.

AU - Hohmann, Katharina F.

AU - Nakagaki, Sayaka

AU - Goojani, Hojjat G.

AU - Nasiri, Hamid

AU - Hideto Miyoshi,

AU - Bald, Dirk

AU - Xie, Hao

AU - Sakamoto, Junshi

AU - Schwalbe, Harald

AU - Safarian, Schara

N1 - Funding Information: We would like to thank Hartmut Michel for review and valuable discussions and Robert B. Gennis for providing plasmid and cells. Funding: This work was supported by the Max Planck Society, the Nobel laureate Fellowship of the Max Planck Society, and the Deutsche Forschungsgemeinschaft (Cluster of Excellence Macromolecular Complexes Frankfurt). Publisher Copyright: © 2021, The Author(s).

PY - 2021/12/13

Y1 - 2021/12/13

N2 - Cytochrome bd-type oxidases play a crucial role for survival of pathogenic bacteria during infection and proliferation. This role and the fact that there are no homologues in the mitochondrial respiratory chain qualify cytochrome bd as a potential antimicrobial target. However, few bd oxidase selective inhibitors have been described so far. In this report, inhibitory effects of Aurachin C (AurC-type) and new Aurachin D (AurD-type) derivatives on oxygen reductase activity of isolated terminal bd-I, bd-II and bo3 oxidases from Escherichia coli were potentiometrically measured using a Clark-type electrode. We synthesized long- (C10, decyl or longer) and short-chain (C4, butyl to C8, octyl) AurD-type compounds and tested this set of molecules towards their selectivity and potency. We confirmed strong inhibition of all three terminal oxidases for AurC-type compounds, whereas the 4(1H)-quinolone scaffold of AurD-type compounds mainly inhibits bd-type oxidases. We assessed a direct effect of chain length on inhibition activity with highest potency and selectivity observed for heptyl AurD-type derivatives. While Aurachin C and Aurachin D are widely considered as selective inhibitors for terminal oxidases, their structure–activity relationship is incompletely understood. This work fills this gap and illustrates how structural differences of Aurachin derivatives determine inhibitory potency and selectivity for bd-type oxidases of E. coli.

AB - Cytochrome bd-type oxidases play a crucial role for survival of pathogenic bacteria during infection and proliferation. This role and the fact that there are no homologues in the mitochondrial respiratory chain qualify cytochrome bd as a potential antimicrobial target. However, few bd oxidase selective inhibitors have been described so far. In this report, inhibitory effects of Aurachin C (AurC-type) and new Aurachin D (AurD-type) derivatives on oxygen reductase activity of isolated terminal bd-I, bd-II and bo3 oxidases from Escherichia coli were potentiometrically measured using a Clark-type electrode. We synthesized long- (C10, decyl or longer) and short-chain (C4, butyl to C8, octyl) AurD-type compounds and tested this set of molecules towards their selectivity and potency. We confirmed strong inhibition of all three terminal oxidases for AurC-type compounds, whereas the 4(1H)-quinolone scaffold of AurD-type compounds mainly inhibits bd-type oxidases. We assessed a direct effect of chain length on inhibition activity with highest potency and selectivity observed for heptyl AurD-type derivatives. While Aurachin C and Aurachin D are widely considered as selective inhibitors for terminal oxidases, their structure–activity relationship is incompletely understood. This work fills this gap and illustrates how structural differences of Aurachin derivatives determine inhibitory potency and selectivity for bd-type oxidases of E. coli.

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