The Lysozyme-Induced Peptidoglycan
            <i>N</i>
            -Acetylglucosamine Deacetylase PgdA (EF1843) Is Required for Enterococcus faecalis Virulence

Benachour, Abdellah; Ladjouzi, Rabia; Jeune, André Le; Hébert, Laurent; Thorpe, Simon J.; Courtin, Pascal; Chapot‐Chartier, Marie‐Pierre; Prajsnar, Tomasz K.; Foster, Simon J.; Mesnage, Stéphane

doi:10.1128/jb.00981-12

Cited by 74 publications

(70 citation statements)

References 46 publications

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“…When the eep gene was complemented back into the eep deletion mutant using a low-copy-number plasmid, the complement strain behaved similarly to the wild type, suggesting that the phenotype we observed was Eep dependent. Consistent with previous observations, the pgdA deletion mutant did not show any change in lysozyme susceptibility compared to that of the wild type (20), even though it is known to be regulated by SigV at the transcriptional level (4, 5). FA2-2 and mutants lacking eep and sigV in this genetic background were used as controls in this study to eliminate any strain bias in the lysozyme resistance mechanism.…”

Section: Deletion Of Eep Renders E Faecalis More Susceptible To Lysosupporting

confidence: 79%

“…Our present studies also confirmed the absence of a link between PgdA and lysozyme resistance in E. faecalis V583. PgdA does, however, contribute to lysozyme susceptibility in Streptococcus pneumoniae and virulence in animal models of infection (31)(32)(33), and recent evidence suggests that PgdA is linked to virulence in E. faecalis, as a mutant in pgdA was attenuated in a Galleria mellonella infection model (20). What role PgdA might be playing in a mammalian host during infection remains to be elucidated.…”

Section: Discussionmentioning

confidence: 99%

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Eep Confers Lysozyme Resistance to Enterococcus faecalis via the Activation of the Extracytoplasmic Function Sigma Factor SigV

Varahan

Iyer

Moore

et al. 2013

Journal of Bacteriology

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Enterococcus faecalis is a commensal bacterium found in the gastrointestinal tract of most mammals, including humans, and is one of the leading causes of nosocomial infections. One of the hallmarks of E. faecalis pathogenesis is its unusual ability to tolerate high concentrations of lysozyme, which is an important innate immune component of the host. Previous studies have shown that the presence of lysozyme leads to the activation of SigV, an extracytoplasmic function (ECF) sigma factor in E. faecalis, and that the deletion of sigV increases the susceptibility of the bacterium toward lysozyme. Here, we describe the contribution of Eep, a membrane-bound zinc metalloprotease, to the activation of SigV under lysozyme stress by its effects on the stability of the anti-sigma factor RsiV. We demonstrate that the ⌬eep mutant phenocopies the ⌬sigV mutant in lysozyme, heat, ethanol, and acid stress susceptibility. We also show, using an immunoblot analysis, that in an eep deletion mutant, the anti-sigma factor RsiV is only partially degraded after lysozyme exposure, suggesting that RsiV is processed by unknown protease(s) prior to the action of Eep. An additional observation is that the deletion of rsiV, which results in constitutive SigV expression, leads to chaining of cells, suggesting that SigV might be involved in regulating cell wall-modifying enzymes important in cell wall turnover. We also demonstrate that, in the absence of eep or sigV, enterococci bind significantly more lysozyme, providing a plausible explanation for the increased sensitivity of these mutants toward lysozyme. Enterococcus faecalis is a commensal organism present in the mammalian gastrointestinal system (1). Over the past few decades, E. faecalis has arisen as one of the leading causes of nosocomial infection (2). Its role as an opportunistic pathogen is strengthened by the mobile genetic elements it harbors, which are often responsible for conferring resistance to a broad range of antibiotics, including vancomycin (3). In addition, E. faecalis is known to demonstrate a heightened ability to survive in the presence of environmental stress factors, such as increased temperature, acidic pH, and oxidative stress (4). In addition to persistence in the presence of the aforementioned stress factors, previous studies have shown that E. faecalis is also highly resistant to lysozyme (5). This high-level resistance to lysozyme (Ͼ62 mg/ml) is predominantly attributed to the extracytoplasmic function (ECF) sigma factor SigV (5). ECF sigma factors are sequestered by membrane-bound anti-sigma factors and rendered inactive in the absence of a given external stress. Under stress-inducing conditions, the anti-sigma factors are degraded by membrane and cytosolic proteases, leading to the activation of ECF sigma factors in a process referred to as regulated intramembrane proteolysis (RIP) (6).RIP has been shown to play an important role in multiple transmembrane signaling processes associated with increased virulence and environmental fitness (7). In Escherichia ...

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Section: Deletion Of Eep Renders E Faecalis More Susceptible To Lysosupporting

confidence: 79%

Section: Discussionmentioning

confidence: 99%

Eep Confers Lysozyme Resistance to Enterococcus faecalis via the Activation of the Extracytoplasmic Function Sigma Factor SigV

Varahan

Iyer

Moore

et al. 2013

Journal of Bacteriology

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“…difficile contains 10 putative polysaccharide deacetylases, of which only 1, encoded by pdaV, is significantly induced by V in a lysozyme-dependent manner. PdaV belongs to the PgdA family of polysaccharide deacetylases, several of which have been implicated in increased lysozyme resistance (19,20,24). We found that expression of pdaV in the csfV mutant increased lysozyme resistance and peptidoglycan deacetylation.…”

Section: Discussionmentioning

confidence: 73%

“…In B. subtilis, V is required for expression of oatA, which encodes a peptidoglycan O-acetyltransferase that increases lysozyme resistance (22,32,33). In E. faecalis, V is required for expression of a peptidoglycan deacetylase, PgdA (19,21). We found that in response to lysozyme, C. difficile V induces expression of a peptidoglycan deacetylase, which results in deacetylation of the C. difficile peptidoglycan.…”

Section: Figmentioning

confidence: 86%

“…Increased lysozyme resistance is an important virulence factor for numerous Gram-positive bacteria, including Enterococcus faecalis, Staphylococcus aureus, Streptococcus pneumoniae, and Listeria monocytogenes (15)(16)(17)(18)(19)(20). To resist killing by lysozyme, bacteria have evolved several mechanisms to modify the acetylation patterns of peptidoglycan, resulting in increased lysozyme resistance (14).…”

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confidence: 99%

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Clostridium difficile Extracytoplasmic Function σ Factor σ ^V Regulates Lysozyme Resistance and Is Necessary for Pathogenesis in the Hamster Model of Infection

et al. 2014

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c Clostridium difficile is a clinically important pathogen and the most common cause of hospital-acquired infectious diarrhea. Expression of the C. difficile gene csfV, which encodes V , an extracytoplasmic function factor, is induced by lysozyme, which damages the peptidoglycan of bacteria. Here we show that V is required for lysozyme resistance in C. difficile. Using microarray analysis, we identified the C. difficile genes whose expression is dependent upon V and is induced by lysozyme. Although the peptidoglycan of wild-type C. difficile is intrinsically highly deacetylated, we have found that exposure to lysozyme leads to additional peptidoglycan deacetylation. This lysozyme-induced deacetylation is dependent upon V . Expression of pdaV, which encodes a putative peptidoglycan deacetylase, was able to increase lysozyme resistance of a csfV mutant. The csfV mutant strain is severely attenuated compared to wild-type C. difficile in a hamster model of C. difficile-associated disease. We conclude that the V signal transduction system, which senses the host innate immune defense enzyme lysozyme, is required for lysozyme resistance and is necessary during C. difficile infection.

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Direct Staudinger–Phosphonite Reaction Provides Methylphosphonamidates as Inhibitors of CE4 De‐N‐acetylases

et al. 2015

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De-N-acetylases of β-(1→6)-D-N-acetylglucosamine polymers (PNAG) and β-(1→4)-D-N-acetylglucosamine residues in peptidoglycan are attractive targets for antimicrobial agents. PNAG de-N-acetylases are necessary for biofilm formation in numerous pathogenic bacteria. Peptidoglycan de-N-acetylation facilitates bacterial evasion of innate immune defenses. To target these enzymes, transition-state analogue inhibitors containing a methylphosphonamidate have been synthesized through a direct Staudinger-phosphonite reaction. The inhibitors were tested on purified PgaB, a PNAG de-N-acetylase from Escherichia coli, and PgdA, a peptidoglycan de-N-acetylase from Streptococcus pneumonia. Herein, we describe the most potent inhibitor of peptidoglycan de-N-acetylases reported to date (Ki =80 μM). The minimal inhibition of PgaB observed provides insight into key structural and functional differences in these enzymes that will need to be considered during the development of future inhibitors.

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The Lysozyme-Induced Peptidoglycan N -Acetylglucosamine Deacetylase PgdA (EF1843) Is Required for Enterococcus faecalis Virulence

Cited by 74 publications

References 46 publications

Eep Confers Lysozyme Resistance to Enterococcus faecalis via the Activation of the Extracytoplasmic Function Sigma Factor SigV

Eep Confers Lysozyme Resistance to Enterococcus faecalis via the Activation of the Extracytoplasmic Function Sigma Factor SigV

Clostridium difficile Extracytoplasmic Function σ Factor σ ^V Regulates Lysozyme Resistance and Is Necessary for Pathogenesis in the Hamster Model of Infection

Direct Staudinger–Phosphonite Reaction Provides Methylphosphonamidates as Inhibitors of CE4 De‐N‐acetylases

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The Lysozyme-Induced Peptidoglycan N -Acetylglucosamine Deacetylase PgdA (EF1843) Is Required for Enterococcus faecalis Virulence

Cited by 74 publications

References 46 publications

Eep Confers Lysozyme Resistance to Enterococcus faecalis via the Activation of the Extracytoplasmic Function Sigma Factor SigV

Eep Confers Lysozyme Resistance to Enterococcus faecalis via the Activation of the Extracytoplasmic Function Sigma Factor SigV

Clostridium difficile Extracytoplasmic Function σ Factor σ V Regulates Lysozyme Resistance and Is Necessary for Pathogenesis in the Hamster Model of Infection

Direct Staudinger–Phosphonite Reaction Provides Methylphosphonamidates as Inhibitors of CE4 De‐N‐acetylases

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Clostridium difficile Extracytoplasmic Function σ Factor σ ^V Regulates Lysozyme Resistance and Is Necessary for Pathogenesis in the Hamster Model of Infection