Gene amplifications cause high-level resistance against albicidin in gram-negative bacteria
Antibiotic resistance is a continuously increasing concern for public healthcare. Understanding resistance mechanisms and their emergence is crucial for the development of new antibiotics and their effective use. The peptide antibiotic albicidin is such a promising candidate that, as a gyrase poison...
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| Published in | PLoS biology Vol. 21; no. 8; p. e3002186 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Public Library of Science
10.08.2023
Public Library of Science (PLoS) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1545-7885 1544-9173 1545-7885 |
| DOI | 10.1371/journal.pbio.3002186 |
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| Abstract | Antibiotic resistance is a continuously increasing concern for public healthcare. Understanding resistance mechanisms and their emergence is crucial for the development of new antibiotics and their effective use. The peptide antibiotic albicidin is such a promising candidate that, as a gyrase poison, shows bactericidal activity against a wide range of gram-positive and gram-negative bacteria. Here, we report the discovery of a gene amplification–based mechanism that imparts an up to 1000-fold increase in resistance levels against albicidin. RNA sequencing and proteomics data show that this novel mechanism protects
Salmonella Typhimurium
and
Escherichia coli
by increasing the copy number of STM3175 (YgiV), a transcription regulator with a GyrI-like small molecule binding domain that traps albicidin with high affinity. X-ray crystallography and molecular docking reveal a new conserved motif in the binding groove of the GyrI-like domain that can interact with aromatic building blocks of albicidin. Phylogenetic studies suggest that this resistance mechanism is ubiquitous in gram-negative bacteria, and our experiments confirm that STM3175 homologs can confer resistance in pathogens such as
Vibrio vulnificus
and
Pseudomonas aeruginosa
. |
|---|---|
| AbstractList | Antibiotic resistance is a continuously increasing concern for public healthcare. Understanding resistance mechanisms and their emergence is crucial for the development of new antibiotics and their effective use. The peptide antibiotic albicidin is such a promising candidate that, as a gyrase poison, shows bactericidal activity against a wide range of gram-positive and gram-negative bacteria. Here, we report the discovery of a gene amplification–based mechanism that imparts an up to 1000-fold increase in resistance levels against albicidin. RNA sequencing and proteomics data show that this novel mechanism protects
Salmonella Typhimurium
and
Escherichia coli
by increasing the copy number of STM3175 (YgiV), a transcription regulator with a GyrI-like small molecule binding domain that traps albicidin with high affinity. X-ray crystallography and molecular docking reveal a new conserved motif in the binding groove of the GyrI-like domain that can interact with aromatic building blocks of albicidin. Phylogenetic studies suggest that this resistance mechanism is ubiquitous in gram-negative bacteria, and our experiments confirm that STM3175 homologs can confer resistance in pathogens such as
Vibrio vulnificus
and
Pseudomonas aeruginosa
. Antibiotic resistance is a continuously increasing concern for public healthcare. Understanding resistance mechanisms and their emergence is crucial for the development of new antibiotics and their effective use. The peptide antibiotic albicidin is such a promising candidate that, as a gyrase poison, shows bactericidal activity against a wide range of gram-positive and gram-negative bacteria. Here, we report the discovery of a gene amplification-based mechanism that imparts an up to 1000-fold increase in resistance levels against albicidin. RNA sequencing and proteomics data show that this novel mechanism protects Salmonella Typhimurium and Escherichia coli by increasing the copy number of STM3175 (YgiV), a transcription regulator with a GyrI-like small molecule binding domain that traps albicidin with high affinity. X-ray crystallography and molecular docking reveal a new conserved motif in the binding groove of the GyrI-like domain that can interact with aromatic building blocks of albicidin. Phylogenetic studies suggest that this resistance mechanism is ubiquitous in gram-negative bacteria, and our experiments confirm that STM3175 homologs can confer resistance in pathogens such as Vibrio vulnificus and Pseudomonas aeruginosa.Antibiotic resistance is a continuously increasing concern for public healthcare. Understanding resistance mechanisms and their emergence is crucial for the development of new antibiotics and their effective use. The peptide antibiotic albicidin is such a promising candidate that, as a gyrase poison, shows bactericidal activity against a wide range of gram-positive and gram-negative bacteria. Here, we report the discovery of a gene amplification-based mechanism that imparts an up to 1000-fold increase in resistance levels against albicidin. RNA sequencing and proteomics data show that this novel mechanism protects Salmonella Typhimurium and Escherichia coli by increasing the copy number of STM3175 (YgiV), a transcription regulator with a GyrI-like small molecule binding domain that traps albicidin with high affinity. X-ray crystallography and molecular docking reveal a new conserved motif in the binding groove of the GyrI-like domain that can interact with aromatic building blocks of albicidin. Phylogenetic studies suggest that this resistance mechanism is ubiquitous in gram-negative bacteria, and our experiments confirm that STM3175 homologs can confer resistance in pathogens such as Vibrio vulnificus and Pseudomonas aeruginosa. Antibiotic resistance is a continuously increasing concern for public healthcare. Understanding resistance mechanisms and their emergence is crucial for the development of new antibiotics and their effective use. The peptide antibiotic albicidin is such a promising candidate that, as a gyrase poison, shows bactericidal activity against a wide range of gram-positive and gram-negative bacteria. Here, we report the discovery of a gene amplification-based mechanism that imparts an up to 1000-fold increase in resistance levels against albicidin. RNA sequencing and proteomics data show that this novel mechanism protects Salmonella Typhimurium and Escherichia coli by increasing the copy number of STM3175 (YgiV), a transcription regulator with a GyrI-like small molecule binding domain that traps albicidin with high affinity. X-ray crystallography and molecular docking reveal a new conserved motif in the binding groove of the GyrI-like domain that can interact with aromatic building blocks of albicidin. Phylogenetic studies suggest that this resistance mechanism is ubiquitous in gram-negative bacteria, and our experiments confirm that STM3175 homologs can confer resistance in pathogens such as Vibrio vulnificus and Pseudomonas aeruginosa. Antibiotic resistance is a continuously increasing concern for public healthcare. Understanding resistance mechanisms and their emergence is crucial for the development of new antibiotics and their effective use. The peptide antibiotic albicidin is such a promising candidate that, as a gyrase poison, shows bactericidal activity against a wide range of gram-positive and gram-negative bacteria. Here, we report the discovery of a gene amplification–based mechanism that imparts an up to 1000-fold increase in resistance levels against albicidin. RNA sequencing and proteomics data show that this novel mechanism protects Salmonella Typhimurium and Escherichia coli by increasing the copy number of STM3175 (YgiV), a transcription regulator with a GyrI-like small molecule binding domain that traps albicidin with high affinity. X-ray crystallography and molecular docking reveal a new conserved motif in the binding groove of the GyrI-like domain that can interact with aromatic building blocks of albicidin. Phylogenetic studies suggest that this resistance mechanism is ubiquitous in gram-negative bacteria, and our experiments confirm that STM3175 homologs can confer resistance in pathogens such as Vibrio vulnificus and Pseudomonas aeruginosa . Antibiotic resistance is a continuously increasing concern for public health care. This study shows that transient gene amplification identifies a conserved transcriptional regulator as a resistance determinant against the peptide antibiotic albicidin in Gram-negative bacteria. |
| Audience | Academic |
| Author | Czyszczoń, Wojciech Saathoff, Mareike Wolf, Silver A. Semmler, Torsten Fulde, Marcus Seidel, Maria Tedin, Karsten Dimos, Nicole Kupke, Johannes Loll, Bernhard Ghazisaeedi, Fereshteh Süssmuth, Roderich D. Jonske, Micela Condor Kuropka, Benno Grätz, Stefan Kosol, Simone Ghilarov, Dmitry Heddle, Jonathan G. |
| AuthorAffiliation | 1 Institute of Microbiology and Epizootics, Freie Universität Berlin, Berlin, Germany 3 Robert Koch-Institute (RKI), MF2—Genome Sequencing and Genomic Epidemiology, Berlin, Germany 5 Malopolska Centre of Biotechnology, Jagiellonian University, Krakow, Poland 2 Institut für Chemie, Technische Universität Berlin, Berlin, Germany 4 Institute for Chemistry and Biochemistry, Freie Universität Berlin, Berlin, Germany Biological Research Centre, HUNGARY 6 Veterinary Centre for Resistance Research (TZR), Freie Universität Berlin, Berlin, Germany |
| AuthorAffiliation_xml | – name: 4 Institute for Chemistry and Biochemistry, Freie Universität Berlin, Berlin, Germany – name: 6 Veterinary Centre for Resistance Research (TZR), Freie Universität Berlin, Berlin, Germany – name: 2 Institut für Chemie, Technische Universität Berlin, Berlin, Germany – name: 1 Institute of Microbiology and Epizootics, Freie Universität Berlin, Berlin, Germany – name: 3 Robert Koch-Institute (RKI), MF2—Genome Sequencing and Genomic Epidemiology, Berlin, Germany – name: 5 Malopolska Centre of Biotechnology, Jagiellonian University, Krakow, Poland – name: Biological Research Centre, HUNGARY |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/37561817$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1111_1751_7915_70032 crossref_primary_10_1038_s44259_025_00082_7 crossref_primary_10_1002_anie_202414325 crossref_primary_10_1002_ange_202414325 crossref_primary_10_1038_s44259_024_00050_7 crossref_primary_10_1038_s44259_024_00052_5 crossref_primary_10_1371_journal_pbio_3002457 crossref_primary_10_1038_s44259_025_00076_5 crossref_primary_10_1002_chem_202500162 |
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| SubjectTerms | Amplification Antibiotic resistance Antibiotics Antimicrobial peptides Bacteria Bactericidal activity Binding Biology and Life Sciences Conserved sequence Control Copy number Crystallography Dosage and administration Drug resistance in microorganisms E coli Evolution Gene amplification Gene sequencing Genetic aspects Genomes Gram-negative bacteria Gram-positive bacteria Grooves Health aspects Kinases Medicine and Health Sciences Molecular docking Mutation Peptides Phylogeny Physical Sciences Proteins Proteomics Research and Analysis Methods X-ray crystallography |
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| Title | Gene amplifications cause high-level resistance against albicidin in gram-negative bacteria |
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