Characterization of AtlL, a bifunctional autolysin ofStaphylococcus lugdunensiswithN-acetylglucosaminidase andN-acetylmuramoyl-l-alanine amidase activities

Bourgeois, Ingrid; Camiade, Émilie; Biswas, Raja; Courtin, Pascal; Gibert, Laure; Götz, Friedrich; Chapot‐Chartier, Marie‐Pierre; Pons, Jean-Louis; Pestel-Caron, Martine

doi:10.1111/j.1574-6968.2008.01414.x

Cited by 34 publications

(28 citation statements)

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“…Indeed, AtlL might play a role in virulence, as it has been shown in vitro through biofilm formation and in vivo in the C. elegans model (41). As AtlL presents high identity percentage with all staphylococcal bifunctional autolysins (40,42,43), it might be involved in the internalization of the bacteria in the eukaryote cell (59). Furthermore, the agr quorum-sensing and signal transduction system, which has been described as a global regulator of virulence gene expression in S. aureus, was also studied (60).…”

Section: Discussionmentioning

confidence: 99%

“…We selected (27,30) and IsdJ, a protein of an iron acquisition system, which of the CoNS, is only used by S. lugdunensis (30,32). Besides theses virulence-associated loci, we analyzed the polymorphisms of the repeated sequences (atlL R2 and atlL R3 ) of the putative CWA domains of the AM and GL autolysins, respectively, generated by the proteolytic cleavage of the bifunctional murein hydrolase, AtlL (40). Indeed, AtlL might play a role in virulence, as it has been shown in vitro through biofilm formation and in vivo in the C. elegans model (41).…”

Section: Discussionmentioning

confidence: 99%

“…Like AtlA and AtlE, AtlL of S. lugdunensis displays two enzymatic domains separated by three repeat domains (AtlL R1 to AtlL R3 ) and undergoes proteolytic processing to generate two extracellular peptidoglycan hydrolases, an N-acetylmuramoyl-L-alanine amidase (AM) and an N-acetylglucosaminidase (GL) with two (AtlL R1R2 ) and one (AtlL R3 ) repeated sequences harboring glycine tryptophan motifs, respectively (40). We recently reported that a ⌬atlL mutant showed a significant reduction in biofilm formation and virulence attenuation using the Caenorhabditis elegans model (41).…”

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confidence: 99%

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Multi-Virulence-Locus Sequence Typing of Staphylococcus lugdunensis Generates Results Consistent with a Clonal Population Structure and Is Reliable for Epidemiological Typing

et al. 2014

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cStaphylococcus lugdunensis is an emergent virulent coagulase-negative staphylococcus responsible for severe infections similar to those caused by Staphylococcus aureus. To understand its potentially pathogenic capacity and have further detailed knowledge of the molecular traits of this organism, 93 isolates from various geographic origins were analyzed by multi-virulence-locus sequence typing (MVLST), targeting seven known or putative virulence-associated loci (atlL R2 , atlL R3 , hlb, isdJ, SLUG_09050, SLUG_16930, and vwbl). The polymorphisms of the putative virulence-associated loci were moderate and comparable to those of the housekeeping genes analyzed by multilocus sequence typing (MLST). However, the MVLST scheme generated 43 virulence types (VTs) compared to 20 sequence types (STs) based on MLST, indicating that MVLST was significantly more discriminating (Simpson's index [D], 0.943). No hypervirulent lineage or cluster specific to carriage strains was defined. The results of multilocus sequence analysis of known and putative virulence-associated loci are consistent with a clonal population structure for S. lugdunensis, suggesting a coevolution of these genes with housekeeping genes. Indeed, the nonsynonymous to synonymous evolutionary substitutions (d N /d S ) ratio, the Tajima's D test, and Single-likelihood ancestor counting (SLAC) analysis suggest that all virulence-associated loci were under negative selection, even atlL R2 (AtlL protein) and SLUG_16930 (FbpA homologue), for which the d N /d S ratios were higher. In addition, this analysis of virulence-associated loci allowed us to propose a trilocus sequence typing scheme based on the intragenic regions of atlL R3 , isdJ, and SLUG_16930, which is more discriminant than MLST for studying short-term epidemiology and further characterizing the lineages of the rare but highly pathogenic S. lugdunensis.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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confidence: 99%

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Multi-Virulence-Locus Sequence Typing of Staphylococcus lugdunensis Generates Results Consistent with a Clonal Population Structure and Is Reliable for Epidemiological Typing

et al. 2014

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“…Among the numerous sequences (>2500) included in the CAZy GH73 family, which is described as peptidoglycan hydrolases with ENGase specificity (EC 3.2.1.-), 20 were characterised from the following bacteria: Bacillus subtilis [26], Clostridium difficile [27], Clostridium perfringens [28], Enterococcus feacalis [29], Enterococcus hirae [30], Lactobacillus plantarum [31], Lactobacillus lactis [32,33], Listeria monocytogenes [34], Sphingomonas sp [35], Staphylococcus aureus [36], Staphylococcus lugdunensis [37], Staphylococcus warneri [38], Streptococcus pneumoniae [39].…”

Section: Murein-engasesmentioning

confidence: 99%

Endo-N-Acetyl-β-D-Glucosaminidases and Peptide-N4-(N-acetyl-β-D-Glucosaminyl) Asparagine Amidases: More Than Just Tools

Karamanos¹

2013

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Abstract:Since the discovery of endo-N-acetyl-β-D-glucosaminidases (ENGase) and peptide-N4-(N-acetyl-β-D-glucosaminyl) asparagine amidases (PNGase) most of the published work described their use for structural studies. Less attention was given to the potential roles of those enzymes in the physiology of the cells/organisms they produced them. The scope of this review is firstly to analyse the data on the occurrence and characteristics of murein-, chitin-, and N-glycan-ENGases acting on GlcNAc-containing polymers in three structural families, namely murein, chitin, and N-glycosylproteins, and of PNGases, only acting on N-glycosylproteins, and secondly to discuss the biological roles of the enzymes in the producing cells. The analysis demonstrates the remarkable diversity of the enzymes, and simultaneously the interest of studying their substrate specificity and their structural features. Many examples illustrate the importance of the structure/function relationships studies. Diverse biological roles were anticipated, e.g. they are useful for feeding purposes, are implicated in pathogenesis processes, modulate the activity of macromolecules, and help in the destruction of misfolded proteins. Their effect can be direct or indirect, through the reaction products. Current knowledge only partially explains the biological roles of ENGases and PNGases, thus further studies are expected for determining novel possibilities and elucidating other cell pathways.

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“…These enzymes may also be implicated in antibiotic-induced lysis (39) and may contribute to bacterial pathogenesis by generating inflammatory cell wall degradation products (32, 40), by releasing virulence factors (4), or by mediating bacterial adherence (1,20,21). The roles of PGHs in bacterial physiology, and probably in bacterial pathogenicity, further reinforce the importance of understanding bacterial autolysis.Autolytic systems of several Gram-positive low-GϩC bacteria have been studied (5,13,34,43,54,55). Belonging to this phylum is Clostridium perfringens, a common agent of food poisoning and implicated in infectious diseases initiating from the digestive tract (peritonitis, bacteremia, etc.…”

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Characterization of Acp, a Peptidoglycan Hydrolase of Clostridium perfringens with N -Acetylglucosaminidase Activity That Is Implicated in Cell Separation and Stress-Induced Autolysis

et al. 2010

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This work reports the characterization of the first known peptidoglycan hydrolase (Acp) produced mainly during vegetative growth of Clostridium perfringens. Acp has a modular structure with three domains: a signal peptide domain, an N-terminal domain with repeated sequences, and a C-terminal catalytic domain. The purified recombinant catalytic domain of Acp displayed lytic activity on the cell walls of several Gram-positive bacterial species. Its hydrolytic specificity was established by analyzing the Bacillus subtilis peptidoglycan digestion products by coupling reverse phase-high-pressure liquid chromatography (RP-HPLC) and matrixassisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF MS) analysis, which displayed an N-acetylglucosaminidase activity. The study of acp expression showed a constant expression during growth, which suggested an important role of Acp in growth of C. perfringens. Furthermore, cell fractionation and indirect immunofluorescence staining using anti-Acp antibodies revealed that Acp is located at the septal peptidoglycan of vegetative cells during exponential growth phase, indicating a role in cell separation or division of C. perfringens. A knockout acp mutant strain was obtained by using the insertion of mobile group II intron strategy (ClosTron). The microscopic examination indicated a lack of vegetative cell separation in the acp mutant strain, as well as the wild-type strain incubated with anti-Acp antibodies, demonstrating the critical role of Acp in cell separation. The comparative responses of wild-type and acp mutant strains to stresses induced by Triton X-100, bile salts, and vancomycin revealed an implication of Acp in autolysis induced by these stresses. Overall, Acp appears as a major cell wall N-acetylglucosaminidase implicated in both vegetative growth and stress-induced autolysis.Autolysins are endogenous peptidoglycan hydrolases (PGHs) that can break covalent bonds in the bacterial cell wall peptidoglycan (16,58). Various PGHs are distinguished on the basis of their specific cleavage site in the peptidoglycan: N-acetylmuramidases, N-acetylglucosaminidases, N-acetylmuramoyl-Lalanine amidases, and endopeptidases. PGHs are involved in different physiological functions that require cell wall remodeling such as cell wall expansion, peptidoglycan turnover, daughter cell separation, or sporulation (53, 54, 60). These enzymes may also be implicated in antibiotic-induced lysis (39) and may contribute to bacterial pathogenesis by generating inflammatory cell wall degradation products (32, 40), by releasing virulence factors (4), or by mediating bacterial adherence (1,20,21). The roles of PGHs in bacterial physiology, and probably in bacterial pathogenicity, further reinforce the importance of understanding bacterial autolysis.Autolytic systems of several Gram-positive low-GϩC bacteria have been studied (5,13,34,43,54,55). Belonging to this phylum is Clostridium perfringens, a common agent of food poisoning and implicated in infectious diseases initiating fr...

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Characterization of AtlL, a bifunctional autolysin ofStaphylococcus lugdunensiswithN-acetylglucosaminidase andN-acetylmuramoyl-l-alanine amidase activities

Cited by 34 publications

References 39 publications

Multi-Virulence-Locus Sequence Typing of Staphylococcus lugdunensis Generates Results Consistent with a Clonal Population Structure and Is Reliable for Epidemiological Typing

Multi-Virulence-Locus Sequence Typing of Staphylococcus lugdunensis Generates Results Consistent with a Clonal Population Structure and Is Reliable for Epidemiological Typing

Endo-N-Acetyl-β-D-Glucosaminidases and Peptide-N4-(N-acetyl-β-D-Glucosaminyl) Asparagine Amidases: More Than Just Tools

Characterization of Acp, a Peptidoglycan Hydrolase of Clostridium perfringens with N -Acetylglucosaminidase Activity That Is Implicated in Cell Separation and Stress-Induced Autolysis

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