Farnesol, a Common Sesquiterpene, Inhibits PQS Production in Pseudomonas Aeruginosa

Overview

Journal Mol Microbiol

Specialties Microbiology
Molecular Biology

Date 2007 Jul 21

PMID 17640272

Citations 131

Authors

Carla Cugini

M Worth Calfee

John M Farrow 3rd

Diana K Morales

Everett C Pesci

Deborah A Hogan

Affiliations

Soon will be listed here.

Abstract

Farnesol is a sesquiterpene produced by many organisms, including the fungus Candida albicans. Here, we report that the addition of farnesol to cultures of Pseudomonas aeruginosa, an opportunistic human bacterial pathogen, leads to decreased production of the Pseudomonas quinolone signal (PQS) and the PQS-controlled virulence factor, pyocyanin. Within 15 min of farnesol addition, decreased transcript levels of pqsA, the first gene in the PQS biosynthetic operon, were observed. Transcript levels of pqsR (mvfR), which encodes the transcription factor that positively regulates pqsA, were unaffected. An Escherichia coli strain producing PqsR and containing the pqsA promoter fused to lacZ similarly showed that farnesol inhibited PQS-stimulated transcription. Electrophoretic mobility shift assays showed that, like PQS, farnesol stimulated PqsR binding to the pqsA promoter at a previously characterized LysR binding site, suggesting that farnesol promoted a non-productive interaction between PqsR and the pqsA promoter. Growth with C. albicans leads to decreased production of PQS and pyocyanin by P. aeruginosa, suggesting that the amount of farnesol produced by the fungus is sufficient to impact P. aeruginosa PQS signalling. Related isoprenoid compounds, but not other long-chain alcohols, also inhibited PQS production at micromolar concen-trations, suggesting that related compounds may participate in interspecies interactions with P. aeruginosa.

Citing Articles

Dectin-1 stimulating β-glucans inhibit Chlamydia infections both in vitro and in vivo.

Kintner J, Callaghan M, Bulawa L, Chu A, Ma Z, Williams D Pathog Dis. 2025; 83.

PMID: 39886876 PMC: 11840957. DOI: 10.1093/femspd/ftaf002.

Targeting quorum sensing for manipulation of commensal microbiota.

Ziegert Z, Dietz M, Hill M, McBride M, Painter E, Elias M BMC Biotechnol. 2024; 24(1):106.

PMID: 39696328 PMC: 11653937. DOI: 10.1186/s12896-024-00937-3.

E.PathDash, pathway activation analysis of publicly available pathogen gene expression data.

Taub L, Hampton T, Sarkar S, Doing G, Neff S, Finger C mSystems. 2024; 9(11):e0103024.

PMID: 39422483 PMC: 11575265. DOI: 10.1128/msystems.01030-24.

Repurposing Farnesol for Combating Drug-Resistant and Persistent Single and Polymicrobial Biofilms.

Tan L, Ma R, Reeves T, Katz A, Levi N Antibiotics (Basel). 2024; 13(4).

PMID: 38667026 PMC: 11047559. DOI: 10.3390/antibiotics13040350.

A Review of the Ethnobotanical Use, Chemistry and Pharmacological Activities of Constituents Derived from the Plant Genus ().

Dugan D, Bell R, Brkljaca R, Rix C, Urban S Metabolites. 2024; 14(2).

PMID: 38392973 PMC: 11154539. DOI: 10.3390/metabo14020081.