Peptidoglycan Structure Analysis of
            <i>Lactococcus lactis</i>
            Reveals the Presence of an
            <scp>l</scp>
            ,
            <scp>d</scp>
            -Carboxypeptidase Involved in Peptidoglycan Maturation

Courtin, Pascal; Miranda, Guy; Guillot, Alain; Wessner, Françoise; Mézange, Christine; Domakova, Elena; Kulakauskas, Saulius; Chapot‐Chartier, Marie‐Pierre

doi:10.1128/jb.00285-06

Cited by 81 publications

(125 citation statements)

References 28 publications

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“…Structure-based multiple sequence alignment ( (25,26), and/or self-resistance of a glycopeptide producer, such as VanY n (27). This evolutionary model is consistent with sequence analysis and extensive phylogenetic reconstruction (Fig.…”

Section: Discussionsupporting

confidence: 49%

Structural basis for the evolution of vancomycin resistance D , D -peptidases

Meziane‐Cherif

Stogios

Evdokimova

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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VanXY residues 110-115 form a mobile cap over the catalytic site, whose flexibility is involved in the switch between di-and pentapeptide hydrolysis. Structure-based alignment of the Van D,D-peptidases showed that VanY enzymes lack this element, which promotes binding of the penta-rather than that of the dipeptide. The structures also highlight the molecular basis for selection of D-Ala-ending precursors over the modified resistance targets. These results illustrate the remarkable adaptability of the D,D-peptidase fold in response to antibiotic pressure via evolution of specific structural elements that confer hydrolytic activity against vancomycin-susceptible peptidoglycan precursors.antibiotic resistance | glycopeptides | enzyme evolution | metallopeptidases | subfamily M15BT he emergence of high-level resistance to vancomycin, a last resort antibiotic against Gram-positive bacteria, in Enterococcus spp. and its spread to methicillin-resistant Staphylococcus aureus is a serious threat to public health (1). Vancomycin acts by binding to the D-alanyl-D-alanine moiety of the uncross-linked SignificanceVancomycin is a powerful antibiotic against Gram-positive bacteria that inhibits cell-wall synthesis by binding with high affinity to peptidoglycan precursors. Resistance to vancomycin is due to acquisition of operons encoding, among other enzymes, the zinc-dependent D,D-peptidases VanX, VanY, or VanXY, which catalyze the removal of the drug targets. Structural characterization of VanXY elucidates the molecular basis of their specificity toward vancomycin-susceptible precursors and explains the dual function of VanXY. These studies highlight the striking plasticity of peptidoglycan-modifying enzymes to evolve to antibiotic resistance proteins. They also provide the molecular framework for development of D,D-peptidase inhibitors that may help to curb vancomycin resistance.Author contributions: D.M.-C., P.J.S., A.S., and P.C. designed research; D.M.-C., P.J.S., and E.E. performed research; D.M.-C., P.J.S., A.S., and P.C. analyzed data; and D.M.-C., P.J.S., A.S., and P.C. wrote the paper.The authors declare no conflict of interest. *This Direct Submission article had a prearranged editor.Data deposition: The atomic coordinates and structure factors have been deposited in the Protein Data Bank, www.pdb.org (PDB ID codes 4F78, 4MUQ-4MUT, and 4OAK).

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Section: Discussionsupporting

confidence: 49%

Structural basis for the evolution of vancomycin resistance D , D -peptidases

Meziane‐Cherif

Stogios

Evdokimova

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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“…The methanol gradient (from 0% in buffer A to 20% in buffer B) was developed at a flow rate of 0.5 ml min −1 . Muropeptides were analyzed directly by matrix‐assisted laser desorption ionization‐time of flight (MALDI‐TOF) mass spectrometry, as previously described (Courtin et al ., 2006). The peaks identified by MALDI‐TOF were integrated in the Agilent software to estimate the amount of each muropeptide.…”

Section: Methodsmentioning

confidence: 99%

Hydrolysis of peptidoglycan is modulated by amidation of meso‐diaminopimelic acid and Mg²⁺ in Bacillus subtilis

Dajkovic

Tesson

Chauhan

et al. 2017

Molecular Microbiology

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SummaryThe ability of excess Mg2+ to compensate the absence of cell wall related genes in Bacillus subtilis has been known for a long time, but the mechanism has remained obscure. Here, we show that the rigidity of wild‐type cells remains unaffected with excess Mg2+, but the proportion of amidated meso‐diaminopimelic (mDAP) acid in their peptidoglycan (PG) is significantly reduced. We identify the amidotransferase AsnB as responsible for mDAP amidation and show that the gene encoding it is essential without added Mg2+. Growth without excess Mg2+ causes ΔasnB mutant cells to deform and ultimately lyse. In cell regions with deformations, PG insertion is orderly and indistinguishable from the wild‐type. However, PG degradation is unevenly distributed along the sidewalls. Furthermore, ΔasnB mutant cells exhibit increased sensitivity to antibiotics targeting the cell wall. These results suggest that absence of amidated mDAP causes a lethal deregulation of PG hydrolysis that can be inhibited by increased levels of Mg2+. Consistently, we find that Mg2+ inhibits autolysis of wild‐type cells. We suggest that Mg2+ helps to maintain the balance between PG synthesis and hydrolysis in cell wall mutants where this balance is perturbed in favor of increased degradation.

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“…It was then cloned into the NcoI and SacI restriction sites of the pJIM2242 Cell wall peptidoglycan preparation. Peptidoglycan from L. lactis strains was prepared as described previously (Courtin et al, 2006). Cells from a 500 ml exponentially growing culture (OD 600 0.3) were chilled on ice and harvested by centrifugation (4200 g, 10 min, 4 uC).…”

Section: Methodsmentioning

confidence: 99%

“…The enzyme was inactivated by boiling the sample for 3 min and insoluble material was removed by centrifugation. The soluble muropeptides were reduced with sodium borohydride and then separated by reversedphase HPLC using a Hypersil ODS column (C18; 25064.6 mm internal diameter; 5 mm particle size; Thermo Hypersil-Keystone) at 50 uC using ammonium phosphate buffer and a methanol linear gradient, as described previously (Courtin et al, 2006). Peaks were analysed without desalting by MALDI-TOF MS with a Voyager DE STR mass spectrometer (Applied Biosystems), as described previously (Courtin et al, 2006).…”

Section: Methodsmentioning

confidence: 99%

“…Its structure can be analysed by identification of the constituent muropeptides obtained after muramidase digestion. Recently, we performed a detailed analysis of L. lactis peptidoglycan structure and observed several deacetylated muropeptides (Courtin et al, 2006). A gene (xynD) encoding a putative peptidoglycan deacetylase was identified in the L. lactis IL1403 genome on the basis of sequence similarity with the peptidoglycan GlcNAc deacetylase PgdA from Streptococcus pneumoniae (Vollmer & Tomasz, 2000).…”

Section: Introductionmentioning

confidence: 99%

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Peptidoglycan N-acetylglucosamine deacetylation decreases autolysis in Lactococcus lactis

et al. 2007

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Peptidoglycan Structure Analysis of Lactococcus lactis Reveals the Presence of an l , d -Carboxypeptidase Involved in Peptidoglycan Maturation

Cited by 81 publications

References 28 publications

Structural basis for the evolution of vancomycin resistance D , D -peptidases

Structural basis for the evolution of vancomycin resistance D , D -peptidases

Hydrolysis of peptidoglycan is modulated by amidation of meso‐diaminopimelic acid and Mg²⁺ in Bacillus subtilis

Peptidoglycan N-acetylglucosamine deacetylation decreases autolysis in Lactococcus lactis

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Peptidoglycan Structure Analysis of Lactococcus lactis Reveals the Presence of an l , d -Carboxypeptidase Involved in Peptidoglycan Maturation

Cited by 81 publications

References 28 publications

Structural basis for the evolution of vancomycin resistance D , D -peptidases

Structural basis for the evolution of vancomycin resistance D , D -peptidases

Hydrolysis of peptidoglycan is modulated by amidation of meso‐diaminopimelic acid and Mg2+ in Bacillus subtilis

Peptidoglycan N-acetylglucosamine deacetylation decreases autolysis in Lactococcus lactis

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Hydrolysis of peptidoglycan is modulated by amidation of meso‐diaminopimelic acid and Mg²⁺ in Bacillus subtilis