The connector SafA interacts with the multi-sensing domain of PhoQ in Escherichia coli.

Sensor histidine kinases of two-component signal transduction systems (TCSs) respond to various environmental signals and transduce the external stimuli across the cell membrane to their cognate response regulators. Recently, membrane proteins that modulate sensory systems have been discovered. Among such proteins is SafA, which activates the PhoQ/PhoP TCS by direct interaction with the sensor PhoQ. SafA is directly induced by the EvgS/EvgA TCS, thus connecting the two TCSs, EvgS/EvgA and PhoQ/PhoP. We investigated how SafA interacted with PhoQ. Bacterial two-hybrid and reporter assays revealed that the C-terminal region (41-65 aa) of SafA activated PhoQ at the periplasm. Adding synthetic SafA(41-65) peptide to the cell culture also activated PhoQ/PhoP. Furthermore, direct interaction between SafA(41-65) and the sensor domain of PhoQ was observed by means of surface plasmon resonance. NMR spectroscopy of (15) N-labelled PhoQ sensor domain confirmed that SafA and Mg(2+) provoked a different conformational change of PhoQ. Site-directed mutagenesis studies revealed that R53, within SafA(41-65), was important for the activation of PhoQ, and D179 of the PhoQ sensor domain was required for its activation by SafA. SafA activated PhoQ by a different mechanism from cationic antimicrobial peptides and acidic pH, and independent of divalent cations and MgrB.

B1500, a small membrane protein, connects the two-component systems EvgS/EvgA and PhoQ/PhoP in Escherichia coli.

Two-component signal-transduction systems (TCSs) of bacteria are considered to form an intricate signal network to cope with various environmental stresses. One example of such a network in Escherichia coli is the signal transduction cascade from the EvgS/EvgA system to the PhoQ/PhoP system, where activation of the EvgS/EvgA system promotes expression of PhoP-activated genes. As a factor connecting this signal transduction cascade, we have identified a small inner membrane protein (65 aa), B1500. Expression of the b1500 gene is directly regulated by the EvgS/EvgA system, and b1500 expression from a heterologous promoter simultaneously activated the expression of mgtA and other PhoP regulon genes. This activation was PhoQ/PhoP-dependent and EvgS/EvgA-independent. Furthermore, deletion of b1500 from an EvgS-activated strain suppressed mgtA expression. B1500 is localized in the inner membrane, and bacterial two-hybrid data showed that B1500 formed a complex with the sensor PhoQ. These results indicate that the small membrane protein, B1500, connected the signal transduction between EvgS/EvgA and PhoQ/PhoP systems by directly interacting with PhoQ, thus activating the PhoQ/PhoP system.