Literature DB >> 19528211

Contribution of autolysin and Sortase a during Enterococcus faecalis DNA-dependent biofilm development.

Pascale S Guiton1, Chia S Hung, Kimberly A Kline, Robyn Roth, Andrew L Kau, Ericka Hayes, John Heuser, Karen W Dodson, Michael G Caparon, Scott J Hultgren.   

Abstract

Biofilm production is a major attribute of Enterococcus faecalis clinical isolates. Although some factors, such as sortases, autolysin, and extracellular DNA (eDNA), have been associated with E. faecalis biofilm production, the mechanisms underlying the contributions of these factors to this process have not been completely elucidated yet. In this study we define important roles for the major E. faecalis autolysin (Atn), eDNA, and sortase A (SrtA) during the developmental stages of biofilm formation under static and hydrodynamic conditions. Deletion of srtA affects the attachment stage and results in a deficiency in biofilm production. Atn-deficient mutants are delayed in biofilm development due to defects in primary adherence and DNA release, which we show to be particularly important during the accumulative phase for maturation and architectural stability of biofilms. Confocal laser scanning and freeze-dry electron microscopy of biofilms grown under hydrodynamic conditions revealed that E. faecalis produces a DNase I-sensitive fibrous network, which is important for biofilm stability and is absent in atn-deficient mutant biofilms. This study establishes the stage-specific requirements for SrtA and Atn and demonstrates a role for Atn in the pathway leading to DNA release during biofilm development in E. faecalis.

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Year:  2009        PMID: 19528211      PMCID: PMC2738007          DOI: 10.1128/IAI.00219-09

Source DB:  PubMed          Journal:  Infect Immun        ISSN: 0019-9567            Impact factor:   3.441


  79 in total

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Review 4.  Sortases and the art of anchoring proteins to the envelopes of gram-positive bacteria.

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  51 in total

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4.  Use of microfluidic technology to analyze gene expression during Staphylococcus aureus biofilm formation reveals distinct physiological niches.

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Review 5.  Bacterial biofilms: development, dispersal, and therapeutic strategies in the dawn of the postantibiotic era.

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6.  EbpA vaccine antibodies block binding of Enterococcus faecalis to fibrinogen to prevent catheter-associated bladder infection in mice.

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7.  Killing bacteria within biofilms by sustained release of tetracycline from triple-layered electrospun micro/nanofibre matrices of polycaprolactone and poly(ethylene-co-vinyl acetate).

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8.  DNABII proteins play a central role in UPEC biofilm structure.

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9.  Identification of genes involved in polysaccharide-independent Staphylococcus aureus biofilm formation.

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10.  Comparative genomic analysis of pathogenic and probiotic Enterococcus faecalis isolates, and their transcriptional responses to growth in human urine.

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