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A recombination directionality factor controls the cell type-specific activation of σK and the fidelity of spore development in Clostridium difficile

A recombination directionality factor controls the cell type-specific activation of σK and the fidelity of spore development in Clostridium difficile
A recombination directionality factor controls the cell type-specific activation of σK and the fidelity of spore development in Clostridium difficile

The strict anaerobe Clostridium difficile is the most common cause of nosocomial diarrhea, and the oxygen-resistant spores that it forms have a central role in the infectious cycle. The late stages of sporulation require the mother cell regulatory protein σK. In Bacillus subtilis, the onset of σK activity requires both excision of a prophage-like element (skinBs) inserted in the sigK gene and proteolytical removal of an inhibitory pro-sequence. Importantly, the rearrangement is restricted to the mother cell because the skinBs recombinase is produced specifically in this cell. In C. difficile, σK lacks a pro-sequence but a skinCd element is present. The product of the skinCd gene CD1231 shares similarity with large serine recombinases. We show that CD1231 is necessary for sporulation and skinCd excision. However, contrary to B. subtilis, expression of CD1231 is observed in vegetative cells and in both sporangial compartments. Nevertheless, we show that skinCd excision is under the control of mother cell regulatory proteins σE and SpoIIID. We then demonstrate that σE and SpoIIID control the expression of the skinCd gene CD1234, and that this gene is required for sporulation and skinCd excision. CD1231 and CD1234 appear to interact and both proteins are required for skinCd excision while only CD1231 is necessary for skinCd integration. Thus, CD1234 is a recombination directionality factor that delays and restricts skinCd excision to the terminal mother cell. Finally, while the skinCd element is not essential for sporulation, deletion of skinCd results in premature activity of σK and in spores with altered surface layers. Thus, skinCd excision is a key element controlling the onset of σK activity and the fidelity of spore development.

Bacillus subtilis/genetics, Cell Cycle/genetics, Clostridioides difficile/genetics, Cross Infection/genetics, Diarrhea/genetics, Gene Expression Regulation, Bacterial, Humans, Oxygen/metabolism, Prophages/genetics, Recombination, Genetic, Sigma Factor/genetics, Spores, Bacterial/genetics
1553-7390
e1006312
Serrano, Mónica
131f2fee-4325-486b-aeee-6a9be8c00ed6
Kint, Nicolas
1ce6fe1d-71a3-4b23-a010-b756f48689cb
Pereira, Fátima C
a9396948-26f9-4f13-8f83-a22fec1dd0e0
Saujet, Laure
ce296314-46b2-4c5e-9a6f-b887481c1ce1
Boudry, Pierre
d965f01b-b52d-45e2-9f2e-de9e712af965
Dupuy, Bruno
9a5356b9-53f4-42d4-b075-49173729f094
Henriques, Adriano O
eb4668e6-bfb0-4df3-bf8e-93dbd1cc5b2d
Martin-Verstraete, Isabelle
53dc87c0-d778-4eb5-bce4-4916d5921e61
Serrano, Mónica
131f2fee-4325-486b-aeee-6a9be8c00ed6
Kint, Nicolas
1ce6fe1d-71a3-4b23-a010-b756f48689cb
Pereira, Fátima C
a9396948-26f9-4f13-8f83-a22fec1dd0e0
Saujet, Laure
ce296314-46b2-4c5e-9a6f-b887481c1ce1
Boudry, Pierre
d965f01b-b52d-45e2-9f2e-de9e712af965
Dupuy, Bruno
9a5356b9-53f4-42d4-b075-49173729f094
Henriques, Adriano O
eb4668e6-bfb0-4df3-bf8e-93dbd1cc5b2d
Martin-Verstraete, Isabelle
53dc87c0-d778-4eb5-bce4-4916d5921e61

Serrano, Mónica, Kint, Nicolas, Pereira, Fátima C, Saujet, Laure, Boudry, Pierre, Dupuy, Bruno, Henriques, Adriano O and Martin-Verstraete, Isabelle (2016) A recombination directionality factor controls the cell type-specific activation of σK and the fidelity of spore development in Clostridium difficile. PLoS Genetics, 12 (9), e1006312. (doi:10.1371/journal.pgen.1006312).

Record type: Article

Abstract

The strict anaerobe Clostridium difficile is the most common cause of nosocomial diarrhea, and the oxygen-resistant spores that it forms have a central role in the infectious cycle. The late stages of sporulation require the mother cell regulatory protein σK. In Bacillus subtilis, the onset of σK activity requires both excision of a prophage-like element (skinBs) inserted in the sigK gene and proteolytical removal of an inhibitory pro-sequence. Importantly, the rearrangement is restricted to the mother cell because the skinBs recombinase is produced specifically in this cell. In C. difficile, σK lacks a pro-sequence but a skinCd element is present. The product of the skinCd gene CD1231 shares similarity with large serine recombinases. We show that CD1231 is necessary for sporulation and skinCd excision. However, contrary to B. subtilis, expression of CD1231 is observed in vegetative cells and in both sporangial compartments. Nevertheless, we show that skinCd excision is under the control of mother cell regulatory proteins σE and SpoIIID. We then demonstrate that σE and SpoIIID control the expression of the skinCd gene CD1234, and that this gene is required for sporulation and skinCd excision. CD1231 and CD1234 appear to interact and both proteins are required for skinCd excision while only CD1231 is necessary for skinCd integration. Thus, CD1234 is a recombination directionality factor that delays and restricts skinCd excision to the terminal mother cell. Finally, while the skinCd element is not essential for sporulation, deletion of skinCd results in premature activity of σK and in spores with altered surface layers. Thus, skinCd excision is a key element controlling the onset of σK activity and the fidelity of spore development.

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More information

Published date: 15 September 2016
Keywords: Bacillus subtilis/genetics, Cell Cycle/genetics, Clostridioides difficile/genetics, Cross Infection/genetics, Diarrhea/genetics, Gene Expression Regulation, Bacterial, Humans, Oxygen/metabolism, Prophages/genetics, Recombination, Genetic, Sigma Factor/genetics, Spores, Bacterial/genetics

Identifiers

Local EPrints ID: 470701
URI: http://eprints.soton.ac.uk/id/eprint/470701
DOI: doi:10.1371/journal.pgen.1006312
ISSN: 1553-7390
PURE UUID: 9ace575a-bde8-42c9-be5e-ca794f885a68
ORCID for Fátima C Pereira: ORCID iD orcid.org/0000-0002-1288-6481

Catalogue record

Date deposited: 18 Oct 2022 16:42
Last modified: 17 Mar 2024 04:14

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Contributors

Author: Mónica Serrano
Author: Nicolas Kint
Author: Fátima C Pereira ORCID iD
Author: Laure Saujet
Author: Pierre Boudry
Author: Bruno Dupuy
Author: Adriano O Henriques
Author: Isabelle Martin-Verstraete

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