Abstract
Pseudomonas aeruginosa employs the Type VI secretion system (T6SS) to outcompete other bacteria in its environment. Among the effectors secreted by the T6SS of P. aeruginosa PAO1, Tse4 is known for its potent antibacterial activity. This study elucidates the molecular function of Tse4, which promotes cell depolarization in competing bacteria. Our results show that Tse4 spontaneously incorporates into lipid monolayers and forms multi-ionic channels in planar bilayers, with either ohmic conduction or diode-like rectifying currents and a preference for cations over anions. These observations allow us to propose a model of action whereby Tse4 channels couple cell depolarization with K+ efflux. These insights into Tse4's pore-forming activity enhance our understanding of bacterial competition and exemplify a finely tuned antibacterial strategy, coupling its ability to cause membrane depolarization with potassium efflux that synergises with other T6SS effectors. These results highlight the sophistication of Pseudomonas aeruginosa's competitive arsenal.