Rhodomyrtone (Rom) is an acylphloroglucinol antibiotic originally isolated from leaves of . Rom targets the bacterial membrane and is active against a wide range of Gram-positive bacteria but the exact mode of action remains obscure. Here we isolated and characterized a spontaneous Rom-resistant mutant from the model strain HG001 (Rom) to learn more about the resistance mechanism. We showed that Rom-resistance is based on a single point mutation in the coding region of [regulator of fatty acid (FA) resistance] that causes an amino acid change from Cys to Arg at position 116 in FarR, that affects FarR activity. Comparative transcriptome analysis revealed that mutated affects transcription of many genes in distinct pathways. FarR represses for example the expression of its own gene (), its flanking gene (effector of FA resistance), and other global regulators such as and . All these genes were consequently upregulated in the Rom clone. Particularly the upregulation of and leads to increased expression of virulence genes rendering the Rom clone more cytotoxic and more pathogenic in a mouse infection model. The Rom-resistance is largely due to the de-repression of . FarE is described as an efflux pump for linoleic and arachidonic acids. We observed an increased release of lipids in the Rom clone compared to its parental strain HG001. If is deleted in the Rom clone, or, if native is expressed in the Rom strain, the corresponding strains become hypersensitive to Rom. Overall, we show here that the high Rom-resistance is mediated by overexpression of in the Rom clone, that FarR is an important regulator, and that the point mutation in (Rom clone) makes the clone hyper-virulent.
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| http://dx.doi.org/10.3389/fmicb.2019.01157 | DOI Listing |
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