Crystal structure of the periplasmic sensor domain of histidine kinase VbrK suggests indirect sensing of β-lactam antibiotics.

Bacterial two-component regulatory systems (TCS) play important roles in sensing environmental stimuli and responding to them by regulating gene expression. VbrK/VbrR, a TCS in Vibrio parahaemolyticus, confers resistance to β-lactam antibiotics through activating a β-lactamase gene. Its periplasmic sensor domain was previously suggested to detect β-lactam antibiotics by direct binding. Here, we report a crystal structure of the periplasmic sensing domain of VbrK (VbrK ^SD ) using sulfur-based single-wavelength anomalous diffraction (S-SAD) phasing. Contrary to most bacterial sensor domains which form dimers, we show that VbrK ^SD is a monomer using size exclusion chromatography coupled with multi-angle light scattering. This observation is also supported by molecular dynamics simulations. To quantify the binding affinity of β-lactam antibiotics to VbrK ^SD , we performed isothermal titration calorimetry and other biophysical analyses. Unexpectedly, VbrK ^SD did not show any significant binding to β-lactam antibiotics. Therefore, we propose that the detection of β-lactam antibiotics by VbrK is likely to be indirect via an as yet unidentified mechanism.
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