Deep Functional Profiling Facilitates the Evaluation of the Antibacterial Potential of the Antibiotic Amicoumacin

The global spread of antibiotic resistance is forcing the scientific community to find new molecular strategies to counteract it. Deep functional profiling of microbiomes provides an alternative source for the discovery of novel antibiotic producers and probiotics. Recently, we implemented this ultr...

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Veröffentlicht in:	Antibiotics (Basel) 2020-04, Vol.9 (4), p.157, Article 157
Hauptverfasser:	Terekhov, Stanislav S., Nazarov, Anton S., Mokrushina, Yuliana A., Baranova, Margarita N., Potapova, Nadezhda A., Malakhova, Maja, Ilina, Elena N., Smirnov, Ivan, Gabibov, Alexander G.
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Sprache:	eng
Schlagworte:	amicoumacin amide stability toward hydrolysis antibiotic activity spectrum Antibiotic resistance Antibiotics Bacteria Bioinformatics Biosynthesis Cancer Cloning Coumarins Cultivation Cytotoxicity deep functional profiling Depth profiling Dosage and administration Drug development Drug interactions Drug resistance Gram-positive bacteria Health aspects Infectious Diseases Kinases Lactobacillus Lead compounds Life Sciences & Biomedicine Metabolomics Methicillin Microbiomes Microfluidics Microorganisms Observations Pathogens Pharmacology & Pharmacy Physiology Probiotics Proteomics Science & Technology single-cell Staphylococcus Staphylococcus aureus Staphylococcus infections Toxicity ultrahigh-throughput screening
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creator	Terekhov, Stanislav S. Nazarov, Anton S. Mokrushina, Yuliana A. Baranova, Margarita N. Potapova, Nadezhda A. Malakhova, Maja Ilina, Elena N. Smirnov, Ivan Gabibov, Alexander G.
description	The global spread of antibiotic resistance is forcing the scientific community to find new molecular strategies to counteract it. Deep functional profiling of microbiomes provides an alternative source for the discovery of novel antibiotic producers and probiotics. Recently, we implemented this ultrahigh-throughput screening approach for the isolation of Bacillus pumilus strains efficiently producing the ribosome-targeting antibiotic amicoumacin A (Ami). Proteomics and metabolomics revealed essential insight into the activation of Ami biosynthesis. Here, we applied omics to boost Ami biosynthesis, providing the optimized cultivation conditions for high-scale production of Ami. Ami displayed a pronounced activity against Lactobacillales and Staphylococcaceae, including methicillin-resistant Staphylococcus aureus (MRSA) strains, which was determined using both classical and massive single-cell microfluidic assays. However, the practical application of Ami is limited by its high cytotoxicity and particularly low stability. The former is associated with its self-lactonization, serving as an improvised intermediate state of Ami hydrolysis. This intramolecular reaction decreases Ami half-life at physiological conditions to less than 2 h, which is unprecedented for a terminal amide. While we speculate that the instability of Ami is essential for Bacillus ecology, we believe that its stable analogs represent attractive lead compounds both for antibiotic discovery and for anticancer drug development.
doi_str_mv	10.3390/antibiotics9040157
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subjects	amicoumacin amide stability toward hydrolysis antibiotic activity spectrum Antibiotic resistance Antibiotics Bacteria Bioinformatics Biosynthesis Cancer Cloning Coumarins Cultivation Cytotoxicity deep functional profiling Depth profiling Dosage and administration Drug development Drug interactions Drug resistance Gram-positive bacteria Health aspects Infectious Diseases Kinases Lactobacillus Lead compounds Life Sciences & Biomedicine Metabolomics Methicillin Microbiomes Microfluidics Microorganisms Observations Pathogens Pharmacology & Pharmacy Physiology Probiotics Proteomics Science & Technology single-cell Staphylococcus Staphylococcus aureus Staphylococcus infections Toxicity ultrahigh-throughput screening
title	Deep Functional Profiling Facilitates the Evaluation of the Antibacterial Potential of the Antibiotic Amicoumacin
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