Impact of growth pH and glucose concentrations on the CodY regulatory network in Streptococcus salivarius

Identification of a Putative CodY Regulon in the Gram-Negative Phylum Synergistetes

CodY is a dominant regulator in low G + C, Gram-positive Firmicutes that governs the regulation of various metabolic pathways and cellular processes. By using various bioinformatics analyses and DNA affinity precipitation assay (DAPA), this study confirmed the presence of CodY orthologues and corresponding regulons in Gram-negative Synergistetes. A novel palindromic sequence consisting of AT-rich arms separated by a spacer region of variable length and sequence was identified in the promoters of the putative codY-containing operons in Synergistetes. The consensus sequence from genera Synergistes and Cloacibacillus (5′-AATTTTCTTAAAATTTCSCTTGATATTTACAATTTT) contained three AT-rich regions, resulting in two palindromic sequences; one of which is identical to Firmicutes CodY box (5′-AATTTTCWGAAAATT). The function of the consensus sequence was tested by using a recombinant CodY protein (His-CodY_DSM) of Cloacibacillus evryensis DSM19522 in DAPA. Mutations in the central AT-rich sequence reduced significantly the binding of His-CodY_DSM, whereas mutations in the 5′ or 3′ end AT-rich sequence slightly reduced the binding, indicating that CodY_DSM could recognize both palindromic sequences. The proposed binding sequences were found in the promoters of multiple genes involved in amino acids biosynthesis, metabolism, regulation, and stress responses in Synergistetes. Thus, a CodY-like protein from Synergistetes may function similarly to Firmicutes CodY.

CodY Is a Global Transcriptional Regulator Required for Virulence in Group B Streptococcus

Group B Streptococcus (GBS) is a Gram-positive bacterium able to switch from a harmless commensal of healthy adults to a pathogen responsible for invasive infections in neonates. The signals and regulatory mechanisms governing this transition are still largely unknown. CodY is a highly conserved global transcriptional regulator that links nutrient availability to the regulation of major metabolic and virulence pathways in low-G+C Gram-positive bacteria. In this work, we investigated the role of CodY in BM110, a GBS strain representative of a hypervirulent lineage associated with the majority of neonatal meningitis. Deletion of codY resulted in a reduced ability of the mutant strain to cause infections in neonatal and adult animal models. The observed decreased in vivo lethality was associated with an impaired ability of the mutant to persist in the blood, spread to distant organs, and cross the blood-brain barrier. Notably, the codY null mutant showed reduced adhesion to monolayers of human epithelial cells in vitro and an increased ability to form biofilms, a phenotype associated with strains able to asymptomatically colonize the host. RNA-seq analysis showed that CodY controls about 13% of the genome of GBS, acting mainly as a repressor of genes involved in amino acid transport and metabolism and encoding surface anchored proteins, including the virulence factor Srr2. CodY activity was shown to be dependent on the availability of branched-chain amino acids, which are the universal cofactors of this regulator. These results highlight a key role for CodY in the control of GBS virulence.

Functional Analysis of a Fibronectin Binding Protein of Streptococcus parasanguinis FW213

Streptococcus parasanguinis is a primary colonizer of dental plaque and an opportunistic pathogen for subacute endocarditis. A putative fibronectin binding protein (Spaf_1409) that lacks both an N-terminal signal peptide and a C-terminal cell wall-anchoring motif was identified from the S. parasanguinis FW213 genome. Spaf_1409 was abundantly present in the cytoplasm and also was found in the cell wall preparation and culture supernatant. By using an isogenic mutant strain, MPH4, Spaf_1409 was found to mediate the binding of S. parasanguinis FW213 to fibronectin. Inactivation of Spaf_1409 did not significantly alter the mass of static biofilm, but reduced the resistance of S. parasanguinis against the shearing force in a flow cell biofilm system, resulting in scattered biofilm. The mortality in Galleria mellonella larvae infected with MPH4 was higher than in those infected with wild-type S. parasanguinis. However, fewer viable bacterial cells were recovered from larvae infected with MPH4, compared to those infected with wild-type S. parasanguinis, up to 42 h post infection, suggesting that the infection by MPH4, but not the growth, was responsible for the elevated mortality. The phagocytic analysis using flow cytometry indicated that Spaf_1409 participates in the recognition of S. parasanguinis FW213 by RAW264.7 macrophages, suggesting that inactivation of Spaf_1409 intensified the immune responses in larvae, leading to larval death. Taken together, the data indicate that Spaf_1409 plays different roles in the development of dental biofilm and in systemic infections.