Enterohaemorrhagic E. coli utilizes an AND-OR logic gate to regulate expression of an outer membrane haem receptor

To sense the transition from environment to host, bacteria use a range of environmental cues to control expression of virulence genes. Iron is tightly sequestered in host tissues and in the human pathogen enterohaemorrhagic E. coli (EHEC) iron-limitation induces transcription of the outermembrane haem transporter encoded by chuAS. ChuA expression is post-transcriptionally activated at 37{degrees}C by a FourU RNA thermometer ensuring that the haem receptor is only expressed under low iron, high temperature conditions that indicate the host. Here we demonstrate that expression of chuA is also independently regulated by the cAMP-responsive sRNA CyaR and transcriptional terminator Rho. These results indicate that chuAS expression is regulated at the transcription initiation, transcript elongation, and translational level. The natural dependence of these processes creates a hierarchy of regulatory AND and OR logic gates that integrate information about the local environment. We show that the logic of the chuA regulatory circuit is activated under conditions that satisfy low iron AND (low glucose OR high temperature). We speculate that additional sensing of a gluconeogenic environment allows further precision in determining when EHEC is at the gastrointestinal epithelium of the host. With previous studies, it appears that the chuAS transcript is controlled by eight regulatory inputs that control expression through six different transcriptional and post-transcriptional mechanisms. The results highlight the ability of regulatory sRNAs to integrate multiple environmental signals into a conditional hierarchy of signal input.