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1,916 results on '"Kuipers, Oscar P"'

51. Cesin, a short natural variant of nisin, displays potent antimicrobial activity against major pathogens despite lacking two C-terminal macrocycles

Author

Wang, Hui, Wang, H ( Hui ), Guo, Longcheng; https://orcid.org/0000-0003-4409-7935, Wambui, Joseph; https://orcid.org/0000-0002-6071-5505, Wang, Chenhui, Muchaamba, Francis; https://orcid.org/0000-0003-2266-3318, Fernandez-Cantos, Maria Victoria, Broos, Jaap, Tasara, Taurai; https://orcid.org/0000-0003-3377-8858, Kuipers, Oscar P; https://orcid.org/0000-0001-5596-7735, Stephan, Roger; https://orcid.org/0000-0003-1002-4762, Wang, Hui, Wang, H ( Hui ), Guo, Longcheng; https://orcid.org/0000-0003-4409-7935, Wambui, Joseph; https://orcid.org/0000-0002-6071-5505, Wang, Chenhui, Muchaamba, Francis; https://orcid.org/0000-0003-2266-3318, Fernandez-Cantos, Maria Victoria, Broos, Jaap, Tasara, Taurai; https://orcid.org/0000-0003-3377-8858, Kuipers, Oscar P; https://orcid.org/0000-0001-5596-7735, and Stephan, Roger; https://orcid.org/0000-0003-1002-4762

Abstract

Nisin is a widely used lantibiotic owing to its potent antimicrobial activity and its food-grade status. Its mode of action includes cell wall synthesis inhibition and pore formation, which are attributed to the lipid II binding and pore-forming domains, respectively. We discovered cesin, a short natural variant of nisin, produced by the psychrophilic anaerobe Clostridium estertheticum. Unlike other natural nisin variants, cesin lacks the two terminal macrocycles constituting the pore-forming domain. The current study aimed at heterologous expression and characterization of the antimicrobial activity and physicochemical properties of cesin. Following the successful heterologous expression of cesin in Lactococcus lactis, the lantibiotic demonstrated a broad and potent antimicrobial profile comparable to that of nisin. Determination of its mode of action using lipid II and lipoteichoic acid binding assays linked the potent antimicrobial activity to lipid II binding and electrostatic interactions with teichoic acids. Fluorescence microscopy showed that cesin lacks pore-forming ability in its natural form. Stability tests have shown the lantibiotic is highly stable at different pH values and temperature conditions, but that it can be degraded by trypsin. However, a bioengineered analog, cesin R15G, overcame the trypsin degradation, while keeping full antimicrobial activity. This study shows that cesin is a novel (small) nisin variant that efficiently kills target bacteria by inhibiting cell wall synthesis without pore formation. IMPORTANCE The current increase in antibiotic-resistant pathogens necessitates the discovery and application of novel antimicrobials. In this regard, we recently discovered cesin, which is a short natural variant of nisin produced by the psychrophilic Clostridium estertheticum. However, its suitability as an antimicrobial compound was in doubt due to its structural resemblance to nisin(1-22), a bioengineered short variant of nisin with low antim

Published
2023

57. High-throughput profiling of drug interactions in Gram-positive bacteria

Author

Cacace, Elisabetta, primary, Kim, Vladislav, additional, Knopp, Michael, additional, Tietgen, Manuela, additional, Brauer-Nikonow, Amber, additional, Inecik, Kemal, additional, Mateus, André, additional, Milanese, Alessio, additional, Mårli, Marita Torrissen, additional, Mitosch, Karin, additional, Selkrig, Joel, additional, Brochado, Ana Rita, additional, Kuipers, Oscar P., additional, Kjos, Morten, additional, Zeller, Georg, additional, Savitski, Mikhail M., additional, Göttig, Stephan, additional, Huber, Wolfgang, additional, and Typas, Athanasios, additional

Published
2022
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65. Brevicidine, a bacterial non-ribosomally produced cyclic antimicrobial lipopeptide with a uniquemodus operandi

Author

Zhao, Xinghong, primary, Zhong, Xinyi, additional, Wan, Hongping, additional, Liu, Lu, additional, Song, Xu, additional, Zou, Yuanfeng, additional, Li, Lixia, additional, Jia, Renyong, additional, Lin, Juchun, additional, Tang, Huaqiao, additional, Ye, Gang, additional, Yang, Jianqing, additional, Zhao, Shan, additional, Lang, Yifei, additional, Yin, Zhongqiong, additional, and Kuipers, Oscar P., additional

Published
2022
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80. Trade-Offs Predicted by Metabolic Network Structure Give Rise to Evolutionary Specialization and Phenotypic Diversification

Author

Ekkers, David M., Tusso Gomez, Sergio, Moreno-Gamez, Stefany, Rillo, Marina C., Kuipers, Oscar P., van Doorn, G. Sander, Ekkers, David M., Tusso Gomez, Sergio, Moreno-Gamez, Stefany, Rillo, Marina C., Kuipers, Oscar P., and van Doorn, G. Sander

Abstract

Mitigating trade-offs between different resource-utilization functions is key to an organism's ecological and evolutionary success. These trade-offs often reflect metabolic constraints with a complex molecular underpinning; therefore, their consequences for evolutionary processes have remained elusive. Here, we investigate how metabolic architecture induces resource-utilization constraints and how these constraints, in turn, elicit evolutionary specialization and diversification. Guided by the metabolic network structure of the bacterium Lactococcus cremoris, we selected two carbon sources (fructose and galactose) with predicted coutilization constraints. By evolving L. cremoris on either fructose, galactose, or a mix of both sugars, we imposed selection favoring divergent metabolic specializations or coutilization of both resources, respectively. Phenotypic characterization revealed the evolution of either fructose or galactose specialists in the single-sugar treatments. In the mixed-sugar regime, we observed adaptive diversification: both specialists coexisted, and no generalist evolved. Divergence from the ancestral phenotype occurred at key pathway junctions in the central carbon metabolism. Fructose specialists evolved mutations in the fbp and pfk genes that appear to balance anabolic and catabolic carbon fluxes. Galactose specialists evolved increased expression of pgmA (the primary metabolic bottleneck of galactose metabolism) and silencing of ptnABCD (the main glucose transporter) and ldh (regulator/enzyme of downstream carbon metabolism). Overall, our study shows how metabolic network architecture and historical contingency serve to predict targets of selection and inform the functional interpretation of evolved mutations. The elucidation of the relationship between molecular constraints and phenotypic trade-offs contributes to an integrative understanding of evolutionary specialization and diversification.

Published
2022
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83. Cell‐to‐cell non‐conjugative plasmid transfer between Bacillus subtilis and lactic acid bacteria.

Author

Morawska, Luiza P. and Kuipers, Oscar P.

Subjects
*LACTIC acid bacteria, *BACILLUS subtilis, *LACTOCOCCUS lactis
Abstract

Bacillus subtilis is a soil‐dwelling bacterium that can interact with a plethora of other microorganisms in its natural habitat. Due to the versatile interactions and its ability to form nanotubes, i.e., recently described membrane structures that trade cytoplasmic content between neighbouring cells, we investigated the potential of HGT from B. subtilis to industrially‐relevant members of lactic acid bacteria (LAB). To explore the interspecies HGT events, we developed a co‐culturing protocol and provided proof of transfer of a small high copy non‐conjugative plasmid from B. subtilis to LABs. Interestingly, the plasmid transfer did not involve conjugation nor activation of the competent state by B. subtilis. Moreover, our study shows for the first time non‐conjugative cell‐to‐cell intraspecies plasmid transfer for non‐competent Lactococcus lactis sp. cremoris strains. Our study indicates that cell‐to‐cell transformation is a ubiquitous form of HGT and can be potentially utilized as an alternative tool for natural (non‐GMO) strain improvement. [ABSTRACT FROM AUTHOR]

Published
2023
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98. DNA-microarrays and food-biotechnology

Author

Kuipers, Oscar P., de Jong, Anne, Holsappel, Siger, Bron, Sierd, Kok, Jan, Hamoen, Leendert W., Konings, W. N., editor, Kuipers, O. P., editor, and In ’t Veld, J. H. J. Huis, editor

Published
1999
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99. Brevibacillin 2V Exerts Its Bactericidal Activity via Binding to Lipid II and Permeabilizing Cellular Membranes

Author

Zhao, Xinghong, Wang, Xiaoqi, Shukla, Rhythm, Kumar, Raj, Weingarth, Markus, Breukink, Eefjan, Kuipers, Oscar P, Sub Membrane Biochemistry & Biophysics, Sub NMR Spectroscopy, NMR Spectroscopy, Membrane Biochemistry and Biophysics, Sub Membrane Biochemistry & Biophysics, Sub NMR Spectroscopy, NMR Spectroscopy, Membrane Biochemistry and Biophysics, and Molecular Genetics

Subjects
Microbiology (medical), medicine.drug_class, non-ribosomally produced peptides, Antibiotics, brevibacillin 2V, Pentapeptide repeat, Microbiology, 03 medical and health sciences, chemistry.chemical_compound, mode of action, medicine, Mode of action, Cytotoxicity, Original Research, 030304 developmental biology, 0303 health sciences, Lipid II, 030306 microbiology, Chemistry, Lipopeptide, Isothermal titration calorimetry, Antimicrobial, QR1-502, NMR, Biochemistry, lipopeptide
Abstract

Lipo-tridecapeptides, a class of bacterial non-ribosomally produced peptides, show strong antimicrobial activity against Gram-positive pathogens, including antibiotic-resistant Staphylococcus aureus and Enterococcus spp. However, many of these lipo-tridecapeptides have shown high hemolytic activity and cytotoxicity, which has limited their potential to be developed into antibiotics. Recently, we reported a novel antimicrobial lipo-tridecapeptide, brevibacillin 2V, which showed no hemolytic activity against human red blood cells at a high concentration of 128 mg/L, opposite to other brevibacillins and lipo-tridecapeptides. In addition, brevibacillin 2V showed much lower cytotoxicity than the other members of the brevibacillin family. In this study, we set out to elucidate the antimicrobial mode of action of brevibacillin 2V. The results show that brevibacillin 2V acts as bactericidal antimicrobial agent against S. aureus (MRSA). Further studies show that brevibacillin 2V exerts its bactericidal activity by binding to the bacterial cell wall synthesis precursor Lipid II and permeabilizing the bacterial membrane. Combined solid-state NMR, circular dichroism, and isothermal titration calorimetry assays indicate that brevibacillin 2V binds to the GlcNAc-MurNAc moiety and/or the pentapeptide of Lipid II. This study provides an insight into the antimicrobial mode of action of brevibacillin 2V. As brevibacillin 2V is a novel and promising antibiotic candidate with low hemolytic activity and cytotoxicity, the here-elucidated mode of action will help further studies to develop it as an alternative antimicrobial agent.

Published
2021

100. Brevibacillin 2V, a Novel Antimicrobial Lipopeptide With an Exceptionally Low Hemolytic Activity

Author

Zhao, Xinghong, Wang, Xiaoqi, Shukla, Rhythm, Kumar, Raj, Weingarth, Markus, Breukink, Eefjan, Kuipers, Oscar P, Sub Membrane Biochemistry & Biophysics, Sub NMR Spectroscopy, Membrane Biochemistry and Biophysics, NMR Spectroscopy, Molecular Genetics, Sub Membrane Biochemistry & Biophysics, Sub NMR Spectroscopy, Membrane Biochemistry and Biophysics, and NMR Spectroscopy

Subjects
Microbiology (medical), medicine.drug_class, Staphylococcus, Antibiotics, Microbiology, Enterococcus faecalis, 03 medical and health sciences, chemistry.chemical_compound, medicine, Original Research, 030304 developmental biology, 0303 health sciences, antimicrobial activity, biology, Brevibacillus, Chemistry, 030302 biochemistry & molecular biology, NRPS, Lipopeptide, brevibacillin, biology.organism_classification, Antimicrobial, QR1-502, Penicillin, Enterococcus, lipopeptide, Colistin, medicine.drug, Enterococcus faecium
Abstract

Bacterial non-ribosomally produced peptides (NRPs) form a rich source of antibiotics, including more than 20 of these antibiotics that are used in the clinic, such as penicillin G, colistin, vancomycin, and chloramphenicol. Here we report the identification, purification, and characterization of a novel NRP, i.e., brevibacillin 2V (lipo-tridecapeptide), from Brevibacillus laterosporus DSM 25. Brevibacillin 2V has a strong antimicrobial activity against Gram-positive bacterial pathogens (minimum inhibitory concentration = 2 mg/L), including difficult-to-treat antibiotic-resistant Enterococcus faecium, Enterococcus faecalis, and Staphylococcus aureus. Notably, brevibacillin 2V has a much lower hemolytic activity (HC50 > 128 mg/L) and cytotoxicity (CC50 = 45.49 ± 0.24 mg/L) to eukaryotic cells than previously reported NRPs of the lipo-tridecapeptide family, including other brevibacillins, which makes it a promising candidate for antibiotic development. In addition, our results demonstrate that brevibacillins display a synergistic action with established antibiotics against Gram-negative bacterial pathogens. Probably due to the presence of non-canonical amino acids and D-amino acids, brevibacillin 2V showed good stability in human plasma. Thus, we identified and characterized a novel and promising antimicrobial candidate (brevibacillin 2V) with low hemolytic activity and cytotoxicity, which can be used either on its own or as a template for further total synthesis and modification.

Published
2021
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