Inhibition of an Rgg-like Regulator in Streptococcus mutans by the Novel Peptide XrpA
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ABSTRACT: BACKGROUND: Streptococcus mutans, the etiological agent of human dental caries, displays complex regulation of natural genetic competence. Competence development in S. mutans is controlled by a peptide derived from ComS (comX inducing peptide, XIP); which along with the cytosolic regulator ComR controls the expression of the alternative sigma factor comX, the master regulator of competence development. ComR-XIP controls the expression of both PcomX and PcomS, with the latter creating a positive feedback loop. Recently, a gene embedded within the coding region of comX was discovered and designated xrpA (comX regulatory peptide A). XrpA was found to be an antagonist of ComX, but the mechanism was not established. In this study, we began to dissect how XrpA exerts control over competence development in S. mutans. METHODS: RNA-Seq was utilized to compare the transcriptomes of S. mutans wild-type strain UA159 (3 replicates), UA159 with addition of 2 uM sXIP (3 replicates) and with a mutant of xrpA (comX::T162C; 3 replicates). Strains were grown to OD600 nm = 0.5 in FMC medium before harvest. sXIP was added at OD600 nm = 0.2. Deep sequencing was performed at the University of Florida ICBR facilities (Gainesville, FL). Approximately 20 million short-reads were obtained for each sample. After removing adapter sequences from each short-read and trimming of the 3’-ends by quality scores (59), the resulting sequences were mapped onto the reference genome of strain UA159 (GenBank accession no. AE014133) using the short-read aligner. Mapped short-read alignments were then converted into readable formats using SAMTOOLS. RESULTS: Using an optimzed data analysis workflow, we mapped 14-19 million reads per sample to the genome of UA159. For viewing of the mapped reads aligned to the genome, .bam files were uploaded into the Integrative Genomics Viewer (IGV – version 2.3.55) (61). A .csv file containing raw read counts for each replicate (3) was then uploaded to Degust (http://degust.erc.monash.edu/) and edgeR analysis performed to determine Log2 fold change and a false discovery rate (FDR). Comparison of the transcriptome by RNA-Seq of the wild-type with the mutant lacking XrpA revealed 56 differentially expressed genes, with 34 upregulated in xrpA and 22 downregulated. Many of the upregulated genes were competence-related genes, including comX and genes that are a part of the ComX regulon of S. mutans . Since loss of xrpA caused upregulation of competence genes, we also analyzed the transcriptome of UA159 treated with 2 uM sXIP to induce competence, with UA159 treated with vehicle (DMSO) as a control. Cells treated with sXIP had 137 genes differentially expressed compared to the DMSO control. CONCLUSIONS: Collectively, these data reveal that the novel regulator XrpA exerts its influence over competence development by impacting ComRS functions, resulting in decreased expression of comX and late com gene expression that negatively impact transformability. These results highlight XrpA as a new negative regulator of competence signaling as well as broaden our understanding of the complex regulatory mechanisms that modulate competence and virulence in S. mutans.
ORGANISM(S): Streptococcus mutans
PROVIDER: GSE110167 | GEO | 2018/02/13
REPOSITORIES: GEO
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