Leptospira interrogans Aer2: an Unusual Membrane-Bound PAS-Heme Oxygen Sensor

Abstract

In this study, we provide the first characterization of a chemoreceptor from Leptospira interrogans, the cause of leptospirosis. This receptor is related to the Aer2 receptors that have been studied in other bacteria. In those organisms, Aer2 is a soluble receptor with one or two PAS-heme domains and signals in response to O2 binding. In contrast, L. interrogans Aer2 (LiAer2) is an unusual membrane-bound Aer2 with a periplasmic domain and three cytoplasmic PAS-heme domains. Each of the three PAS domains bound b-type heme via conserved Eh -His residues. They also bound O2 and CO with similar affinities to each other and other PAS-heme domains. However, all three PAS domains were uniquely hexacoordinate in the deoxy-heme state, whereas other Aer2-PAS domains are pentacoordinate. Similar to other Aer2 receptors, LiAer2 could hijack the E. coli chemotaxis pathway but only when it was expressed with an E. coli high-abundance chemoreceptor. Unexpectedly, the response was inverted relative to classic Aer2 receptors. That is, LiAer2 caused E. coli to tumble (it was signal-on) in the absence of O2 and to stop tumbling in its presence. Thus, an endogenous ligand in the deoxy-heme state was correlated with signal-on LiAer2, and its displacement for gas-binding turned signaling off. This response also occurred in a soluble version of LiAer2 lacking the periplasmic domain, transmembrane (TM) region, and first two PAS domains, meaning that PAS3 alone was sufficient for O2-mediated control. Future studies are needed to understand the unique signaling mechanisms of this unusual Aer2 receptor.