Azetidomonamide and Diazetidomonapyridone Metabolites Control Biofilm Formation and Pigment Synthesis in Pseudomonas aeruginosa

Synthesis of azetidine-derived natural products by the opportunistic pathogen Pseudomonas aeruginosa is controlled by quorum sensing, a process involving the production and sensing of diffusible signal molecules that is decisive for virulence regulation. In this study, we engineered P. aeruginosa fo...

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Bibliographic Details
Published in:Journal of the American Chemical Society 2022-05, Vol.144 (17), p.7676-7685
Main Authors: Ernst, Simon, Volkov, Alexander N, Stark, Melina, Hölscher, Lea, Steinert, Katharina, Fetzner, Susanne, Hennecke, Ulrich, Drees, Steffen Lorenz
Format: Article
Language:English
Subjects:
Azetidines
Bacterial Proteins - genetics
Bacterial Proteins - metabolism
Biofilms
Pseudomonas aeruginosa - metabolism
Quorum Sensing - genetics
Virulence Factors
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Summary:Synthesis of azetidine-derived natural products by the opportunistic pathogen Pseudomonas aeruginosa is controlled by quorum sensing, a process involving the production and sensing of diffusible signal molecules that is decisive for virulence regulation. In this study, we engineered P. aeruginosa for the titratable expression of the biosynthetic aze gene cluster, which allowed the purification and identification of two new products, azetidomonamide C and diazetidomonapyridone. Diazetidomonapyridone was shown to have a highly unusual structure with two azetidine rings and an open-chain diimide moiety. Expression of aze genes strongly increased biofilm formation and production of phenazine and alkyl quinolone virulence factors. Further physiological studies revealed that all effects were mainly mediated by azetidomonamide A and diazetidomonapyridone, whereas azetidomonamides B and C had little or no phenotypic impact. The P450 monooxygenase AzeF which catalyzes a challenging, stereoselective hydroxylation of the azetidine ring converting azetidomonamide C into azetidomonamide A is therefore crucial for biological activity. Based on our findings, we propose this group of metabolites to constitute a new class of diffusible regulatory molecules with community-related effects in P. aeruginosa.
ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.1c13653