Singapore Centre for Environmental Life Sciences Engineering, Nanyang Technological University, 637551, Singapore.
School of Materials Science and Engineering, Nanyang Technological University, 637551, Singapore.
Environ Sci Technol. 2020 Jun 2;54(11):6730-6740. doi: 10.1021/acs.est.0c00716. Epub 2020 May 21.
The mechanisms and impact of bacterial quorum sensing (QS) for the coordination of population-level behaviors are well studied under laboratory conditions. However, it is unclear how, in otherwise open environmental systems, QS signals accumulate to sufficient concentration to induce QS phenotypes, especially when quorum quenching (QQ) organisms are also present. We explore the impact of QQ activity on QS signaling in spatially organized biofilms in scenarios that mimic open systems of natural and engineered environments. Using a functionally differentiated biofilm system, we show that the extracellular matrix, local flow, and QQ interact to modulate communication. In still aqueous environments, convection facilitates signal dispersal while the matrix absorbs and relays signals to the cells. This process facilitates inter-biofilm communication even at low extracellular signal concentrations. Within the biofilm, the matrix further regulates the transport of the competing QS and QQ molecules, leading to heterogenous QS behavior. Importantly, only extracellular QQ enzymes can effectively control QS signaling, suggesting that the intracellular QQ enzymes may not have evolved to degrade environmental QS signals for competition.
细菌群体感应(QS)在协调种群水平行为方面的机制和影响在实验室条件下得到了很好的研究。然而,在其他开放的环境系统中,QS 信号如何积累到足够的浓度以诱导 QS 表型尚不清楚,特别是当存在群体淬灭(QQ)生物时。我们探索了 QQ 活性对模拟自然和工程环境开放系统的空间组织生物膜中 QS 信号的影响。使用功能分化的生物膜系统,我们表明细胞外基质、局部流动和 QQ 相互作用来调节通讯。在静止的水相环境中,对流促进信号的扩散,而基质吸收和向细胞传递信号。即使在低细胞外信号浓度下,这个过程也促进了生物膜之间的通讯。在生物膜内,基质进一步调节竞争的 QS 和 QQ 分子的运输,导致异质的 QS 行为。重要的是,只有细胞外的 QQ 酶才能有效地控制 QS 信号,这表明细胞内的 QQ 酶可能没有进化到为竞争而降解环境 QS 信号。
