Microbiology Spectrum (Dec 2023)
Dissecting the molecular dance: c-di-GMP, cAMP-CRP, and VfmH collaboration in pectate lyase regulation for Dickeya dadantii—unveiling the soft rot pathogen’s strategy
Abstract
ABSTRACT Dickeya dadantii is a Gram-negative bacterium that causes soft rot diseases in a variety of plants. This pathogen secretes pectate lyase (Pel) enzymes to degrade the plant cell wall, a process controlled by the bacterial second messenger cyclic diguanylate monophosphate (c-di-GMP). VfmH is a Fis-family response regulator of the Vfm quorum sensing system, which has been previously reported to positively regulate pel transcription. Our results demonstrated that VfmH upregulated the production of Pel at low c-di-GMP levels, which was suppressed by c-di-GMP via deleting gene egcpB, encoding a phosphodiesterase that degrades c-di-GMP. Multiple sequence alignments between FleQ, a known c-di-GMP binding protein, and VfmH revealed several potential c-di-GMP binding motifs. We further validated these motifs via single amino acid substitutions. Indeed, derivatives of VfmH, including VfmHR195A, VfmHR279A, and VfmHR344A, abolished the c-di-GMP binding ability and the corresponding regulation in Pel. We found that VfmH exhibited ATPase activity, and this could be hindered by c-di-GMP binding. Interestingly, our results showed that VfmH interacted with CRP, suggesting that the cyclic AMP (cAMP) signaling pathway is also involved in the VfmH-mediated Pel regulation. Taken together, our study suggested that D. dadantii amalgamates both c-di-GMP and cAMP signaling networks along with the Vfm quorum sensing pathway to control Pel. IMPORTANCE Bacteria respond to environmental changes and adapt to host systems. The response regulator VfmH of the Vfm quorum sensing system regulates a crucial virulence factor, pectate lyase (Pel), in Dickeya dadantii. At high c-di-GMP concentrations, VfmH binds c-di-GMP, resulting in the loss of its activation property in the Pel and virulence regulation in D. dadantii. VfmH binds to c-di-GMP via three conserved arginine residues, and mutations of these residues eliminate the c-di-GMP-related phenotypes of VfmH in Pel synthesis. Our data also show that VfmH interacts with CRP to regulate pelD transcription, thus integrating cyclic AMP and c-di-GMP signaling pathways to control virulence in D. dadantii. We propose that VfmH is an important intermediate factor incorporating quorum sensing and nucleotide signaling pathways for the collective regulation of D. dadantii pathogenesis.
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