Genome-wide analysis of cell type-specific gene transcription during spore formation in Clostridium difficile

Genome-wide analysis of cell type-specific gene transcription during spore formation in Clostridium difficile

Clostridium difficile, a Gram positive, anaerobic, spore-forming bacterium is an emergent pathogen and the most common cause of nosocomial diarrhea. Although transmission of C. difficile is mediated by contamination of the gut by spores, the regulatory cascade controlling spore formation remains poo...

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Published in:PLoS genetics Vol. 9; no. 10; p. e1003756
Main Authors: Saujet, Laure, Pereira, Fátima C, Serrano, Monica, Soutourina, Olga, Monot, Marc, Shelyakin, Pavel V, Gelfand, Mikhail S, Dupuy, Bruno, Henriques, Adriano O, Martin-Verstraete, Isabelle
Format: Journal Article
Language:English
Published: United States Public Library of Science 01-10-2013
Public Library of Science (PLoS)
Subjects:
Bacillus subtilis - genetics
Bacillus subtilis - pathogenicity
Bacteriology
Biochemistry, Molecular Biology
Cell Differentiation
Clostridium
Clostridium difficile - genetics
Clostridium difficile - pathogenicity
Diarrhea - genetics
Diarrhea - microbiology
Evolution, Molecular
Experiments
Gene expression
Gene Expression Regulation, Bacterial
Genetic aspects
Genetic transcription
Genome, Bacterial
Genome-wide association studies
Genomes
Humans
Life Sciences
Microbiology
Molecular biology
Physiological aspects
Promoter Regions, Genetic
Protein Binding
Proteins
Sigma Factor - genetics
Sigma Factor - metabolism
Spores, Bacterial - genetics
Spores, Bacterial - growth & development
Transcription, Genetic
Russia
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Summary:Clostridium difficile, a Gram positive, anaerobic, spore-forming bacterium is an emergent pathogen and the most common cause of nosocomial diarrhea. Although transmission of C. difficile is mediated by contamination of the gut by spores, the regulatory cascade controlling spore formation remains poorly characterized. During Bacillus subtilis sporulation, a cascade of four sigma factors, σ(F) and σ(G) in the forespore and σ(E) and σ(K) in the mother cell governs compartment-specific gene expression. In this work, we combined genome wide transcriptional analyses and promoter mapping to define the C. difficile σ(F), σ(E), σ(G) and σ(K) regulons. We identified about 225 genes under the control of these sigma factors: 25 in the σ(F) regulon, 97 σ(E)-dependent genes, 50 σ(G)-governed genes and 56 genes under σ(K) control. A significant fraction of genes in each regulon is of unknown function but new candidates for spore coat proteins could be proposed as being synthesized under σ(E) or σ(K) control and detected in a previously published spore proteome. SpoIIID of C. difficile also plays a pivotal role in the mother cell line of expression repressing the transcription of many members of the σ(E) regulon and activating sigK expression. Global analysis of developmental gene expression under the control of these sigma factors revealed deviations from the B. subtilis model regarding the communication between mother cell and forespore in C. difficile. We showed that the expression of the σ(E) regulon in the mother cell was not strictly under the control of σ(F) despite the fact that the forespore product SpoIIR was required for the processing of pro-σ(E). In addition, the σ(K) regulon was not controlled by σ(G) in C. difficile in agreement with the lack of pro-σ(K) processing. This work is one key step to obtain new insights about the diversity and evolution of the sporulation process among Firmicutes.
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Conceived and designed the experiments: IMV AOH BD MSG OS. Performed the experiments: LS MS FCP OS. Analyzed the data: LS FCP AOH BD OS MM PVS MSG IMV. Contributed reagents/materials/analysis tools: LS FCP MS OS MM PVS MSG BD AOH IMV. Wrote the paper: LS MSG BD AOH IMV.
The authors have declared that no competing interests exist.
ISSN:1553-7404
1553-7390
1553-7404
DOI:10.1371/journal.pgen.1003756