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Structural basis for c-di-AMP–dependent regulation of the bacterial stringent response by receptor protein DarB

Jana L. Heidemann, Piotr Neumann, Larissa Krüger, Dennis Wicke, Liza Vinhoven, A. Linden, Achim Dickmanns, Jörg Stülke, Henning Urlaub, Ralf Ficner

2022Journal of Biological Chemistry16 citationsDOIOpen Access PDF

Abstract

The bacterial second messenger c-di-AMP controls essential cellular processes, including potassium and osmolyte homeostasis. This makes synthesizing enzymes and components involved in c-di-AMP signal transduction intriguing as potential targets for drug development. The c-di-AMP receptor protein DarB of Bacillus subtilis binds the Rel protein and triggers the Rel-dependent stringent response to stress conditions; however, the structural basis for this trigger is unclear. Here, we report crystal structures of DarB in the ligand-free state and of DarB complexed with c-di-AMP, 3'3'-cGAMP, and AMP. We show that DarB forms a homodimer with a parallel, head-to-head assembly of the monomers. We also confirm the DarB dimer binds two cyclic dinucleotide molecules or two AMP molecules; only one adenine of bound c-di-AMP is specifically recognized by DarB, while the second protrudes out of the donut-shaped protein. This enables DarB to bind also 3'3'-cGAMP, as only the adenine fits in the active site. In absence of c-di-AMP, DarB binds to Rel and stimulates (p)ppGpp synthesis, whereas the presence of c-di-AMP abolishes this interaction. Furthermore, the DarB crystal structures reveal no conformational changes upon c-di-AMP binding, leading us to conclude the regulatory function of DarB on Rel must be controlled directly by the bound c-di-AMP. We thus derived a structural model of the DarB-Rel complex via in silico docking, which was validated with mass spectrometric analysis of the chemically crosslinked DarB-Rel complex and mutagenesis studies. We suggest, based on the predicted complex structure, a mechanism of stringent response regulation by c-di-AMP.

Topics & Concepts

ReceptorStringent responseChemistryBiochemistryBiologyBiophysicsEscherichia coliGeneBacterial Genetics and BiotechnologyBacterial biofilms and quorum sensingAntimicrobial Peptides and Activities
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