The Spore Differentiation Pathway in the Enteric Pathogen Clostridium difficile

Pereira, Fátima C.; Saujet, Laure; Tomé, A.; Serrano, Mònica; Monot, Marc; Couture‐Tosi, Evelyne; Martin‐Verstraete, Isabelle; Dupuy, Bruno; Henriques, Adriano O.

doi:10.1371/journal.pgen.1003782

Cited by 139 publications

(351 citation statements)

References 90 publications

(207 reference statements)

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“…As expected, the C. difficile sigF mutant was unable to form any heat-resistant spores. TEM image analysis revealed that the sigF disruption mutant had its sporulation blocked at asymmetric division and was unable to progress further in spore morphogenesis, which is similar to the observations of the B. subtilis sigF mutant (25,91,94) (Fig. 5).…”

Section: Sporulation-specific Sigma Factors That Are Activated Downstsupporting

confidence: 80%

“…The sigF gene was also disrupted in the important pathogen C. difficile (generating sigF disruption mutant strain AHCD533) (94). As expected, the C. difficile sigF mutant was unable to form any heat-resistant spores.…”

Section: Sporulation-specific Sigma Factors That Are Activated Downstmentioning

confidence: 60%

“…However, a more electron-translucent region with some electron-dense layers was observed in some of the C. difficile sigF mutant cells, which is in contrast to the B. subtilis sigF mutant. Additionally, DNA staining showed that the DNA was strongly localized in the forespore in the C. difficile sigF mutant (25,94). Using transcriptional SNAP Cd fusions to CD2470 (the ortholog of the B. subtilis gpr gene), which is predicted to be under the control of F , Pereira et al demonstrated that F is active exclusively in the forespore despite being transcribed in both the mother cell and forespore compartments (94).…”

Section: Sporulation-specific Sigma Factors That Are Activated Downstmentioning

confidence: 99%

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The Clostridium Sporulation Programs: Diversity and Preservation of Endospore Differentiation

Al-Hinai

Jones

Papoutsakis

2015

Microbiol Mol Biol Rev

158

190

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SUMMARY Bacillus and Clostridium organisms initiate the sporulation process when unfavorable conditions are detected. The sporulation process is a carefully orchestrated cascade of events at both the transcriptional and posttranslational levels involving a multitude of sigma factors, transcription factors, proteases, and phosphatases. Like Bacillus genomes, sequenced Clostridium genomes contain genes for all major sporulation-specific transcription and sigma factors ( spo0A , sigH , sigF , sigE , sigG , and sigK ) that orchestrate the sporulation program. However, recent studies have shown that there are substantial differences in the sporulation programs between the two genera as well as among different Clostridium species. First, in the absence of a Bacillus -like phosphorelay system, activation of Spo0A in Clostridium organisms is carried out by a number of orphan histidine kinases. Second, downstream of Spo0A, the transcriptional and posttranslational regulation of the canonical set of four sporulation-specific sigma factors (σ F , σ E , σ G , and σ K ) display different patterns, not only compared to Bacillus but also among Clostridium organisms. Finally, recent studies demonstrated that σ K , the last sigma factor to be activated according to the Bacillus subtilis model, is involved in the very early stages of sporulation in Clostridium acetobutylicum , C. perfringens , and C. botulinum as well as in the very late stages of spore maturation in C. acetobutylicum . Despite profound differences in initiation, propagation, and orchestration of expression of spore morphogenetic components, these findings demonstrate not only the robustness of the endospore sporulation program but also the plasticity of the program to generate different complex phenotypes, some apparently regulated at the epigenetic level.

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Section: Sporulation-specific Sigma Factors That Are Activated Downstsupporting

confidence: 80%

Section: Sporulation-specific Sigma Factors That Are Activated Downstmentioning

confidence: 60%

Section: Sporulation-specific Sigma Factors That Are Activated Downstmentioning

confidence: 99%

See 1 more Smart Citation

The Clostridium Sporulation Programs: Diversity and Preservation of Endospore Differentiation

Al-Hinai

Jones

Papoutsakis

2015

Microbiol Mol Biol Rev

158

190

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“…The mechanism of regulation of all these factors is not known and is currently under study. However, Pereira et al observed that as in B. subtilis, the activity of factors F and G in C. difficile is focused on forespores and that of factors E and K on the mother cell (Figure 2) [23].…”

Section: Persistence Of Sporesmentioning

confidence: 99%

Clostridium difficile Infection: Pathogenesis, Diagnosis and Treatment

Fernández-García¹,

Blasco²,

López³

et al. 2017

Clostridium Difficile - A Comprehensive Overview

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Clostridium difficile is a Gram-positive bacterium with the capacity of spore generation.The C. difficile infections, related to antibiotic treatment, have increased in number and severity during the last few years; increasing the health problems caused by this bacterium. One of the most important problems of the C. difficile infection is the recurrence. Due to all of these facts, researchers have been searching for new treatments such as faecal microbiota transplantation or bacteriocins development.

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“…En C. perfringens, σ K es producido en células en la fase pre-divisional y se encuentra involucrado en la producción de enterotoxina 105 . En cuanto a C. difficile, un estudio mostró que en relación a los roles de los distintos factores sigma involucrados en esporulación, C. difficile parece ser cercano al organismo modelo, B. subtilis, más que a otras especies del género Clostridium 106 .…”

Section: Esporulación Y Producción De Toxinasunclassified

Esporas de Clostridium difficile y su relevancia en la persistencia y transmisión de la infección

Barra-Carrasco

Hernández-Rocha

Ibáñez

et al. 2014

Rev. chil. infectol.

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Clostridium difficile spores and its relevance in the persistence and transmission of the infection C. difficile is an anaerobic spore former pathogen and the most important etiologic agent of nosocomial and community acquired antibiotics associated diarrheas. C. difficile infections (CDI) are responsible for an elevated rate of morbidity in developed and developing countries. Although the major virulence factors responsible for clinical symptoms of CDI are the two toxins TcdA and TcdB, C. difficile spores are the main vehicle of infection, persistence and transmission of CDI. Recent work has unrevealed unique properties of C. difficile spores that make them remarkable morphotypes of persistence and transmission in the host, including their resistance to antibiotics, the host immune response and disinfectants. The present review summarizes relevant aspects of C. difficile spore biology that have major implications from a clinical and medical perspective.

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The Spore Differentiation Pathway in the Enteric Pathogen Clostridium difficile

Cited by 139 publications

References 90 publications

The Clostridium Sporulation Programs: Diversity and Preservation of Endospore Differentiation

The Clostridium Sporulation Programs: Diversity and Preservation of Endospore Differentiation

Clostridium difficile Infection: Pathogenesis, Diagnosis and Treatment

Esporas de Clostridium difficile y su relevancia en la persistencia y transmisión de la infección

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