AI Article Synopsis
- The phenylacetic acid degradation pathway in Burkholderia cenocepacia is crucial for its full pathogenicity, especially in models mimicking cystic fibrosis, although the exact reasons are still unclear.
- A specific mutant (ΔpaaABCDE), which cannot metabolize phenylacetic acid, was found to have decreased virulence due to quorum sensing inhibition, as it released phenylacetic acid into the environment.
- This release hinders the bacterial communication system (quorum sensing) by reducing signaling molecules, suggesting that effective degradation of phenylacetic acid by wild-type B. cenocepacia helps maintain its pathogenic capabilities by preventing the buildup of compounds that inhibit this communication.
Article Abstract
The phenylacetic acid degradation pathway of Burkholderia cenocepacia is active during cystic fibrosis-like conditions and is necessary for full pathogenicity of B. cenocepacia in nematode and rat infection models; however, the reasons for such requirements are unknown. Here, we show that the attenuated virulence of a phenylacetic acid catabolism mutant is due to quorum sensing inhibition. Unlike wild-type B. cenocepacia, a deletion mutant of the phenylacetyl-CoA monooxygenase complex (ΔpaaABCDE) released phenylacetic acid in the medium that favours infection in Caenorhabditis elegans. Addition of phenylacetic acid further decreased the pathogenicity of the ΔpaaABCDE, which cannot metabolize phenylacetic acid, but did not affect the wild-type, due to phenylacetic acid consumption. In line with reduced detection of acyl-homoserine lactones in spent medium, the ΔpaaABCDE exhibited transcriptional inhibition of the quorum sensing system cepIR. Phenotypes repressed in ΔpaaABCDE, protease activity and pathogenicity against C. elegans, increased with exogenous N-octanoyl-L-homoserine lactone. Thus, we demonstrate that the attenuated phenotype of B. cenocepacia ΔpaaABCDE is due to quorum sensing inhibition by release of phenylacetic acid, affecting N-octanoyl-L-homoserine lactone signalling. Further, we propose that active degradation of phenylacetic acid by B. cenocepacia during growth in cystic fibrosis-like conditions prevents accumulation of a quorum sensing inhibiting compound.
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| http://dx.doi.org/10.1111/mmi.12771 | DOI Listing |
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