Project description:More than 200 direct CodY target genes in Staphylococcus aureus were identified by genome-wide analysis of in vitro DNA binding. This analysis, which was confirmed for some genes by DNase I footprinting assays, revealed that CodY is a direct regulator of numerous transcription units associated with amino acid biosynthesis, transport of macromolecules and virulence. The virulence genes regulated by CodY fell into three groups. One group was dependent on the Agr system for its expression; these genes were indirectly regulated by CodY through its repression of the agr locus. A second group was regulated directly by CodY. The third group, which includes genes for alpha-toxin and capsule synthesis, was regulated by CodY in two ways, i.e., by direct repression and by repression of the agr locus. Since S. aureus CodY was activated in vitro by the branched chain amino acids and GTP, CodY appears to link changes in intracellular metabolite pools with the induction of numerous adaptive responses, including virulence.

Project description:More than 200 direct CodY target genes in Staphylococcus aureus were identified by genome-wide analysis of in vitro DNA binding. This analysis, which was confirmed for some genes by DNase I footprinting assays, revealed that CodY is a direct regulator of numerous transcription units associated with amino acid biosynthesis, transport of macromolecules and virulence. The virulence genes regulated by CodY fell into three groups. One group was dependent on the Agr system for its expression; these genes were indirectly regulated by CodY through its repression of the agr locus. A second group was regulated directly by CodY. The third group, which includes genes for alpha-toxin and capsule synthesis, was regulated by CodY in two ways, i.e., by direct repression and by repression of the agr locus. Since S. aureus CodY was activated in vitro by the branched chain amino acids and GTP, CodY appears to link changes in intracellular metabolite pools with the induction of numerous adaptive responses, including virulence. Affymetrix GeneChips were used to compare the transcript titers of S. aureus strains UAMS-1 (wild type) and corresponding agr- (strain CM18), codY- (strain MS1), and agr- codY- (strain CM19) isogenic mutant strains during exponential and stationary phase growth. At least two biological replicates were assessed for each strain and each growth phase.

Project description:CodY is a nutritional regulator mainly involved in amino acid metabolism. It has been extensively studied in Bacillis subtilis and Lactococcus lactis. We investigated the role of CodY in gene regulation and virulence of the human pathogen Streptococcus pneumoniae. We constructed a codY-mutant and examined the effect on gene and protein expression by microarray and 2D DIGE analysis. The pneumococcal CodY-regulon was found to consist predominantly of genes involved in amino acid metabolism, but also several other cellular processes, such as carbon metabolism and iron uptake. By means of electrophoretic mobility shift assays and DNA footprinting, we showed that most targets identified are under direct control of CodY. By mutating DNA predicted to represent the CodY-box based on the L. lactis consensus, we demonstrated that this sequence is indeed required for in vitro DNA-binding to target promoters. Similar to L. lactis, DNA-binding of CodY was enhanced in the presence of the branched chain amino acids isoleucine, leucine, and valine, and not by GTP. We observed in experimental mouse models that CodY is transcribed in the murine nasopharynx and lungs, and is specifically required for colonization. This finding was underscored by the diminished ability of the codY-mutant to adhere to nasopharyngeal cells in vitro. In conclusion, pneumococcal CodY predominantly regulates genes involved in amino acid metabolism and contributes to the early stages of infection, i.e. colonization of the nasopharynx. Keywords: codY

Project description:CodY is a nutritional regulator mainly involved in amino acid metabolism. It has been extensively studied in Bacillis subtilis and Lactococcus lactis. We investigated the role of CodY in gene regulation and virulence of the human pathogen Streptococcus pneumoniae. We constructed a codY-mutant and examined the effect on gene and protein expression by microarray and 2D DIGE analysis. The pneumococcal CodY-regulon was found to consist predominantly of genes involved in amino acid metabolism, but also several other cellular processes, such as carbon metabolism and iron uptake. By means of electrophoretic mobility shift assays and DNA footprinting, we showed that most targets identified are under direct control of CodY. By mutating DNA predicted to represent the CodY-box based on the L. lactis consensus, we demonstrated that this sequence is indeed required for in vitro DNA-binding to target promoters. Similar to L. lactis, DNA-binding of CodY was enhanced in the presence of the branched chain amino acids isoleucine, leucine, and valine, and not by GTP. We observed in experimental mouse models that CodY is transcribed in the murine nasopharynx and lungs, and is specifically required for colonization. This finding was underscored by the diminished ability of the codY-mutant to adhere to nasopharyngeal cells in vitro. In conclusion, pneumococcal CodY predominantly regulates genes involved in amino acid metabolism and contributes to the early stages of infection, i.e. colonization of the nasopharynx. Keywords: codY CodY of Streptococcus pneumoniae: link between nutritional gene regulation and virulence

Project description:CodY is a conserved broad acting transcriptional factor that regulates the expression of genes related to amino acid metabolism and virulence in Staphylococcus aureus. CodY target genes have been studied by using in vitro DNA affinity purification and deep sequencing (IDAP-Seq). In this study we performed the first in vivo determination of CodY target genes using a novel CodY monoclonal antibody in established ChIP-exo protocols. Our results showed, 1) The same 165 CodY target genes in both strains; 2) That the differential binding intensity for the same target genes under the same conditions were due to sequence differences in the same CodY binding site in the two strains; 3) Based on transcriptomic data, a CodY regulon comprising 72 target genes that revealed that CodY is mainly involved in amino acid transport and metabolism, inorganic ion transport and metabolism, and cellular transcription and translation; and 4) CodY systematically regulated central metabolic flux to generate branched-chain amino acids (BCAAs) by mapping the CodY regulon onto a genome-scale metabolic model of S. aureus. Our study performed the first system-level analysis of CodY in two closely related dominant USA300 TCH1516 and LAC strains, thus expanding the size of the known CodY regulon, and giving new insights into the similarities and differences of CodY regulatory roles between closely related strains.

Project description:CodY is a widely conserved global regulator, regulating nitrogen metabolism, virulence, and stress response in Gram-positive bacteria. Here, we performed ChIP-seq to define the CodY regulon in L. lactis, and found that CodY served either as an activator or as a repressor of hundreds of genes. The genes involved in amino acid biosynthesis and transport, cell wall synthesis, nisin synthesis and immunity, and several transcription regulators were identified regulated by CodY for the first time. Intriguingly, CodY could directly bind to the downstream of codY. This study gives new insights into the function of CodY controlling cell wall synthesis, nisin synthesis and immunity, as well as self-regulation in L. lactis.

Project description:CodY of Lactococcus lactis MG1363 is a transcriptional regulator that represses the expression of several genes encoding proteins of the proteolytic system. DNA microarray analysis, comparing the expression profiles of L. lactis MG1363 and an isogenic strain in which codY was mutated, was used to determine the CodY regulon. In peptide-rich medium and exponentially growing cells, where CodY exerts strong repressing activity, the expression of over 30 genes was significantly increased upon removal of codY. The differentially expressed genes included those predominantly involved in amino acid transport and metabolism. In addition, several genes belonging to other functional categories were derepressed, stressing the pleiotropic role of CodY. Scrutinizing the transcriptome data with bioinformatics tools revealed the presence of a novel overrepresented motif in the upstream regions of several of the genes derepressed in L. lactis MG1363codY. Evidence is presented that this 15-bps cis-sequence, AATTTTCWGAAAATT, serves as a high-affinity binding site for CodY, as shown by electrophoretic mobility shift assays and DNaseI footprinting analyses. The presence of this CodY-box is sufficient to evoke CodY-mediated regulation in vivo. A copy of this motif is also present in the upstream region of codY itself. It is shown that CodY regulates its own synthesis and requires the CodY-box and branched-chain amino acids to interact with its promoter. Keywords: genetic modification

Project description:CodY and GlnR are two major transcriptional regulators in nitrogen metabolism in Gram-positive bacteria. CodY regulates genes involved in the adaptive response to poor growth conditions, especially to nutrient limitation. GlnR controls nitrogen utilization according to the availability of nitrogen source. In this study we used microarray to investigate the regulatory roles that CodY and GlnR play in nitrogen metabolism in Streptococcus mutans.

Project description:CodY is a conserved regulator in gram-positive organisms described to repress metabolic genes mainly involved in nitrogen metabolism but also to control the expression of virulence genes in pathogens. We constructed codY gene-replacement mutants in three unrelated S. aureus strains (Newman, UAMS-1, RN1HG). codY mutants grew slower in a chemically defined medium compared to the wild type strains. However, only codY mutants were able to grow in medium lacking threonine. Excess of isoleucine resulted in growth inhibition in the wild type but not in the codY mutants indicating a role of isoleucine for CodY dependent repression of metabolic genes. The prototypic CodY-repressed operon ilvDBCleuABCilvA is preceded by a CodY-binding motif and repressed after up-shift with isoleucine and to a lesser extent guanidine. Transcription of the quorum sensing system agr followed a similar expression pattern. The codY dependent repression of agr is in line with the concomitant influence of CodY on typical agr regulated genes such as cap, spa fnbA and coa. However, transcriptional analysis revealed that most of these virulence genes (e.g. cap, fnbA, spa hla) are also regulated by CodY in an agr negative background. Microarray analysis revealed the large majority of codY-repressed genes are involved in amino-acid transport and metabolism, genes showing codY dependent activation were mainly involved in nucleotide transport and metabolism or virulence. In summary, CodY in S. aureus not only acts as repressor for genes involved in nitrogen metabolism but also contributes to virulence gene regulation by supporting as well as substituting agr function.

Project description:CodY is a conserved regulator in gram-positive organisms described to repress metabolic genes mainly involved in nitrogen metabolism but also to control the expression of virulence genes in pathogens. We constructed codY gene-replacement mutants in three unrelated S. aureus strains (Newman, UAMS-1, RN1HG). codY mutants grew slower in a chemically defined medium compared to the wild type strains. However, only codY mutants were able to grow in medium lacking threonine. Excess of isoleucine resulted in growth inhibition in the wild type but not in the codY mutants indicating a role of isoleucine for CodY dependent repression of metabolic genes. The prototypic CodY-repressed operon ilvDBCleuABCilvA is preceded by a CodY-binding motif and repressed after up-shift with isoleucine and to a lesser extent guanidine. Transcription of the quorum sensing system agr followed a similar expression pattern. The codY dependent repression of agr is in line with the concomitant influence of CodY on typical agr regulated genes such as cap, spa fnbA and coa. However, transcriptional analysis revealed that most of these virulence genes (e.g. cap, fnbA, spa hla) are also regulated by CodY in an agr negative background. Microarray analysis revealed the large majority of codY-repressed genes are involved in amino-acid transport and metabolism, genes showing codY dependent activation were mainly involved in nucleotide transport and metabolism or virulence. In summary, CodY in S. aureus not only acts as repressor for genes involved in nitrogen metabolism but also contributes to virulence gene regulation by supporting as well as substituting agr function. The microarray was manufactured by in situ synthesis of 10'807 long oligonucleotide probes , selected as previously described (Charbonnier, 2005). It covers >98% of all ORFs annotated in strains N315 and Mu50 , MW2, COL , NCTC8325, USA300 , MRSA252 an MSSA476 including their respective plasmids.