The Peptide Antibiotic Corramycin Adopts a β-Hairpin-like Structure and Is Inactivated by the Kinase ComG

Sebastian Adam; Franziska Fries; Alexander von Tesmar; Sari Rasheed; Selina Deckarm; Carla F. Sousa; Roman Reberšek; Timo Risch; Stefano Mancini; Jennifer Herrmann; Jesko Koehnke; Olga V. Kalinina; Rolf Müller

doi:10.1021/jacs.3c13208

The Peptide Antibiotic Corramycin Adopts a β-Hairpin-like Structure and Is Inactivated by the Kinase ComG

Sebastian Adam, Franziska Fries, Alexander von Tesmar, Sari Rasheed, Selina Deckarm, Carla F. Sousa, Roman Reberšek, Timo Risch, Stefano Mancini, Jennifer Herrmann, Jesko Koehnke, Olga V. Kalinina, Rolf Müller^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Research › peer review

Abstract

The rapid development of antibiotic resistance, especially among difficult-to-treat Gram-negative bacteria, is recognized as a serious and urgent threat to public health. The detection and characterization of novel resistance mechanisms are essential to better predict the spread and evolution of antibiotic resistance. Corramycin is a novel and modified peptidic antibiotic with activity against several Gram-negative pathogens. We demonstrate that the kinase ComG, part of the corramycin biosynthetic gene cluster, phosphorylates and thereby inactivates corramycin, leading to the resistance of the host. Remarkably, we found that the closest structural homologues of ComG are aminoglycoside phosphotransferases; however, ComG shows no activity toward this class of antibiotics. The crystal structure of ComG in complex with corramycin reveals that corramycin adopts a β-hairpin-like structure and allowed us to define the changes leading to a switch in substrate from sugar to peptide. Bioinformatic analyses suggest a limited occurrence of ComG-like proteins, which along with the absence of cross-resistance to clinically used drugs positions corramycin as an attractive antibiotic for further development.

Original language	English
Pages (from-to)	8981-8990
Number of pages	10
Journal	Journal of the American Chemical Society
Volume	146
Issue number	13
Early online date	21 Mar 2024
DOIs	https://doi.org/10.1021/jacs.3c13208
Publication status	Published - 3 Apr 2024

UN Sustainable Development Goals (SDGs)

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

ASJC Scopus subject areas

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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10.1021/jacs.3c13208Licence: CC BY 4.0

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Adam, S., Fries, F., von Tesmar, A., Rasheed, S., Deckarm, S., Sousa, C. F., Reberšek, R., Risch, T., Mancini, S., Herrmann, J., Koehnke, J., Kalinina, O. V., & Müller, R. (2024). The Peptide Antibiotic Corramycin Adopts a β-Hairpin-like Structure and Is Inactivated by the Kinase ComG. Journal of the American Chemical Society, 146(13), 8981-8990. https://doi.org/10.1021/jacs.3c13208

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title = "The Peptide Antibiotic Corramycin Adopts a β-Hairpin-like Structure and Is Inactivated by the Kinase ComG",

abstract = "The rapid development of antibiotic resistance, especially among difficult-to-treat Gram-negative bacteria, is recognized as a serious and urgent threat to public health. The detection and characterization of novel resistance mechanisms are essential to better predict the spread and evolution of antibiotic resistance. Corramycin is a novel and modified peptidic antibiotic with activity against several Gram-negative pathogens. We demonstrate that the kinase ComG, part of the corramycin biosynthetic gene cluster, phosphorylates and thereby inactivates corramycin, leading to the resistance of the host. Remarkably, we found that the closest structural homologues of ComG are aminoglycoside phosphotransferases; however, ComG shows no activity toward this class of antibiotics. The crystal structure of ComG in complex with corramycin reveals that corramycin adopts a β-hairpin-like structure and allowed us to define the changes leading to a switch in substrate from sugar to peptide. Bioinformatic analyses suggest a limited occurrence of ComG-like proteins, which along with the absence of cross-resistance to clinically used drugs positions corramycin as an attractive antibiotic for further development.",

author = "Sebastian Adam and Franziska Fries and {von Tesmar}, Alexander and Sari Rasheed and Selina Deckarm and Sousa, {Carla F.} and Roman Reber{\v s}ek and Timo Risch and Stefano Mancini and Jennifer Herrmann and Jesko Koehnke and Kalinina, {Olga V.} and Rolf M{\"u}ller",

note = "Funding Information: This study was supported by the German Centre for Infection Research (DZIF) in the project “Development of corramycin as an antibiotic against Gram-negative bacteria” (project: TTU 09.827, funding code: 8004809827) and the European Research Council (ERC CoG 101002326) (to J.K.). ",

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month = apr,

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doi = "10.1021/jacs.3c13208",

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Adam, S, Fries, F, von Tesmar, A, Rasheed, S, Deckarm, S, Sousa, CF, Reberšek, R, Risch, T, Mancini, S, Herrmann, J, Koehnke, J, Kalinina, OV & Müller, R 2024, 'The Peptide Antibiotic Corramycin Adopts a β-Hairpin-like Structure and Is Inactivated by the Kinase ComG', Journal of the American Chemical Society, vol. 146, no. 13, pp. 8981-8990. https://doi.org/10.1021/jacs.3c13208

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T1 - The Peptide Antibiotic Corramycin Adopts a β-Hairpin-like Structure and Is Inactivated by the Kinase ComG

AU - Adam, Sebastian

AU - Fries, Franziska

AU - von Tesmar, Alexander

AU - Rasheed, Sari

AU - Deckarm, Selina

AU - Sousa, Carla F.

AU - Reberšek, Roman

AU - Risch, Timo

AU - Mancini, Stefano

AU - Herrmann, Jennifer

AU - Koehnke, Jesko

AU - Kalinina, Olga V.

AU - Müller, Rolf

N1 - Funding Information: This study was supported by the German Centre for Infection Research (DZIF) in the project “Development of corramycin as an antibiotic against Gram-negative bacteria” (project: TTU 09.827, funding code: 8004809827) and the European Research Council (ERC CoG 101002326) (to J.K.).

PY - 2024/4/3

Y1 - 2024/4/3

N2 - The rapid development of antibiotic resistance, especially among difficult-to-treat Gram-negative bacteria, is recognized as a serious and urgent threat to public health. The detection and characterization of novel resistance mechanisms are essential to better predict the spread and evolution of antibiotic resistance. Corramycin is a novel and modified peptidic antibiotic with activity against several Gram-negative pathogens. We demonstrate that the kinase ComG, part of the corramycin biosynthetic gene cluster, phosphorylates and thereby inactivates corramycin, leading to the resistance of the host. Remarkably, we found that the closest structural homologues of ComG are aminoglycoside phosphotransferases; however, ComG shows no activity toward this class of antibiotics. The crystal structure of ComG in complex with corramycin reveals that corramycin adopts a β-hairpin-like structure and allowed us to define the changes leading to a switch in substrate from sugar to peptide. Bioinformatic analyses suggest a limited occurrence of ComG-like proteins, which along with the absence of cross-resistance to clinically used drugs positions corramycin as an attractive antibiotic for further development.

AB - The rapid development of antibiotic resistance, especially among difficult-to-treat Gram-negative bacteria, is recognized as a serious and urgent threat to public health. The detection and characterization of novel resistance mechanisms are essential to better predict the spread and evolution of antibiotic resistance. Corramycin is a novel and modified peptidic antibiotic with activity against several Gram-negative pathogens. We demonstrate that the kinase ComG, part of the corramycin biosynthetic gene cluster, phosphorylates and thereby inactivates corramycin, leading to the resistance of the host. Remarkably, we found that the closest structural homologues of ComG are aminoglycoside phosphotransferases; however, ComG shows no activity toward this class of antibiotics. The crystal structure of ComG in complex with corramycin reveals that corramycin adopts a β-hairpin-like structure and allowed us to define the changes leading to a switch in substrate from sugar to peptide. Bioinformatic analyses suggest a limited occurrence of ComG-like proteins, which along with the absence of cross-resistance to clinically used drugs positions corramycin as an attractive antibiotic for further development.

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U2 - 10.1021/jacs.3c13208

DO - 10.1021/jacs.3c13208

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C2 - 38513269

AN - SCOPUS:85188420194

SN - 0002-7863

VL - 146

SP - 8981

EP - 8990

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 13

ER -

The Peptide Antibiotic Corramycin Adopts a β-Hairpin-like Structure and Is Inactivated by the Kinase ComG

Abstract

UN Sustainable Development Goals (SDGs)

ASJC Scopus subject areas

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