An intact S-layer is advantageous to Clostridioides difficile within the host

Ormsby, Michael J.; Vaz, Filipa; Kirk, Joseph A.; Barwinska-Sendra, Anna; Hallam, Jennifer C.; Lanzoni-Mangutchi, Paola; Cole, John; Chaudhuri, Roy R.; Salgado, Paula S.; Fagan, Robert P.; Douce, Gill

doi:10.1371/journal.ppat.1011015

Cited by 4 publications

(2 citation statements)

References 68 publications

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“…However, in vitro and in vivo data showed that loss of slpA comes with a huge fitness cost. Indeed, slpA mutants produce less toxins, sporulate less, are more sensitive to antimicrobial peptides, and are avirulent ( 49 , 62 ). Therefore, phage resistance through receptor mutation would be compensated by loss of virulence, facilitating patient recovery.…”

Section: Discussionmentioning

confidence: 99%

The long and sinuous road to phage-based therapy of Clostridioides difficile infections

Umansky,

Fortier

2023

Front. Med.

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With the antibiotic crisis and the rise in antimicrobial resistance worldwide, new therapeutic alternatives are urgently needed. Phage therapy represents one of the most promising alternatives but for some pathogens, such as Clostridioides difficile, important challenges are being faced. The perspective of phage therapy to treat C. difficile infections is complicated by the fact that no strictly lytic phages have been identified so far, and current temperate phages generally have a narrow host range. C. difficile also harbors multiple antiphage mechanisms, and the bacterial genome is often a host of one or multiple prophages that can interfere with lytic phage infection. Nevertheless, due to recent advances in phage host receptor recognition and improvements in genetic tools to manipulate phage genomes, it is now conceivable to genetically engineer C. difficile phages to make them suitable for phage therapy. Other phage-based alternatives such as phage endolysins and phage tail-like bacteriocins (avidocins) are also being investigated but these approaches also have their own limitations and challenges. Last but not least, C. difficile produces spores that are resistant to phage attacks and all current antibiotics, and this complicates therapeutic interventions. This mini-review gives a brief historical overview of phage work that has been carried out in C. difficile, presents recent advances in the field, and addresses the most important challenges that are being faced, with potential solutions.

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Section: Discussionmentioning

confidence: 99%

The long and sinuous road to phage-based therapy of Clostridioides difficile infections

Umansky,

Fortier

2023

Front. Med.

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“…R20291 was rendered avirulent via deletion of the complete pathogenicity locus (encoding toxins A and B) using plasmid pJAK143 36 , yielding strain R20291Δ PaLoc . This strain was then further modified by deletion of DNA repair operon mutSL to create a hyper-mutator strain.…”

Section: Methodsmentioning

confidence: 99%

Multiple evolutionary pathways lead to vancomycin resistance inClostridioides difficile

Buddle,

Wright,

Turner

et al. 2023

Preprint

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Clostridioides difficile is an important human pathogen, for which there are very limited treatment options, primarily the glycopeptide antibiotic vancomycin. In recent years vancomycin resistance has emerged as a serious problem in several Gram positive pathogens, but high level resistance has yet to be reported for C. difficile, although it is not known if this is due to constraints upon resistance evolution in this species. Here we show that resistance to vancomycin can evolve rapidly under ramping selection but is accompanied by severe fitness costs and pleiotropic trade-offs, including sporulation defects that would be expected to severely impact transmission. We identified two distinct pathways to resistance, both of which are predicted to result in changes to the muropeptide terminal D-Ala-D-Ala that is the primary target of vancomycin. One of these pathways involves a previously uncharacterised D,D-carboxypeptidase, expression of which is controlled by a dedicated two-component signal transduction system. Our findings suggest that while C. difficile is capable of evolving high-level vancomycin resistance, this outcome may be limited clinically due to pleiotropic effects on key pathogenicity trains. Moreover, our data provide a mutational roadmap to inform genomic surveillance.

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Can plastic pollution drive the emergence and dissemination of novel zoonotic diseases?

Ormsby,

Woodford,

Quilliam

2024

Environmental Research

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An intact S-layer is advantageous to Clostridioides difficile within the host

Cited by 4 publications

References 68 publications

The long and sinuous road to phage-based therapy of Clostridioides difficile infections

The long and sinuous road to phage-based therapy of Clostridioides difficile infections

Multiple evolutionary pathways lead to vancomycin resistance inClostridioides difficile

Can plastic pollution drive the emergence and dissemination of novel zoonotic diseases?

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