Dental Research Institute, Faculty of Dentistry, University of Toronto, Toronto, Ontario, Canada.
Future Microbiol. 2014;9(11):1283-93. doi: 10.2217/fmb.14.87.
Bacteria have evolved various strategies to contend with high concentrations of environmental heavy metal ions for rapid, adaptive responses to maintain cell viability. Evidence gathered in the past two decades suggests that bacterial two-component signal transduction systems (TCSTSs) are intimately involved in monitoring cation accumulation, and can regulate the expression of related metabolic and virulence genes to elicit adaptive responses to changes in the concentration of these ions. Using examples garnered from recent studies, we summarize the cross-regulatory relationships between metal ions and TCSTSs. We present evidence of how bacterial TCSTSs modulate metal ion homeostasis and also how metal ions, in turn, function to control the activities of these signaling systems linked with bacterial survival and virulence.
细菌已经进化出各种策略来应对环境中重金属离子的高浓度,以实现快速、适应性的反应,从而维持细胞活力。过去二十年的研究证据表明,细菌双组分信号转导系统(TCSTSs)密切参与监测阳离子积累,并可以调节相关代谢和毒力基因的表达,以对这些离子浓度的变化产生适应性反应。我们使用最近研究中的例子总结了金属离子和 TCSTSs 之间的交叉调控关系。我们提出了证据表明细菌 TCSTSs 如何调节金属离子的内稳态,以及金属离子如何反过来控制与细菌存活和毒力相关的这些信号系统的活性。