RESUMO
The opportunistic pathogen Pseudomonas aeruginosa employs acyl homoserine lactones (AHL) as signaling compounds to regulate virulence gene expression via quorum sensing. The AHL N-3-oxo-dodecanoyl-l-homoserine lactone (3OC(12)-HSL) also induces mammalian cell responses, including apoptosis and immune modulation. In certain cell types the apoptotic effects of 3OC(12)-HSL are mediated via a calcium-dependent signaling pathway, while some pro-inflammatory effects involve intracellular transcriptional regulators. However, the mechanisms by which mammalian cells perceive and respond to 3OC(12)-HSL are still not completely understood. Here we used microarray analysis to investigate the transcriptional response of human lung epithelial cells after exposure to 3OC(12)-HSL. These data revealed that mRNA levels for several genes involved in xenobiotic sensing and drug transport were increased in cells exposed to 3OC(12)-HSL, which led us to examine the intracellular fate of 3OC(12)-HSL. Using radiolabeled autoinducer uptake assays, we discovered that intracellular 3OC(12)-HSL levels increased after exposure and achieved maximal levels after 20-30 min. Intracellular 3OC(12)-HSL decreased to background levels over the next 90 min and this process was blocked by pre-treatment with an inhibitor of the ABC transporter ABCA1. Taken together, these data suggest that mammalian cells detect 3OC(12)-HSL and activate protective mechanisms to expel it from the cell.