A Continuum of Anionic Charge: Structures and Functions of<scp>d</scp>-Alanyl-Teichoic Acids in Gram-Positive Bacteria

Neuhaus, Francis C.; Baddiley, J.

doi:10.1128/mmbr.67.4.686-723.2003

Cited by 896 publications

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“…To our knowledge, our structures are the first atomic descriptions of antibodies in complex with an epitope from the Gram-positive restricted teichoic acid family of polysaccharides. Wall teichoic acid is a major component of the cell wall structure of S. aureus , 39 and along with PNAG 22 and the glycosylated SD repeats (SDRs) of adhesive factors such as ClfA, 8 is a key exposed epitope on the surface of the bacteria. Importantly, we showed by immunoradiometric assay that each S. aureus cell exposes between 20,000 and 30,000 binding sites for each of our anti-WTA antibodies (Figure 3), highlighting the abundance of the WTA epitope at the S. aureus surface.…”

Section: Discussionmentioning

confidence: 99%

Structural investigation of humanS. aureus-targeting antibodies that bind wall teichoic acid

Fong¹,

Kajihara²,

Chen³

et al. 2018

mAbs

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Infections caused by methicillin-resistant Staphylococcus aureus (MRSA) are a growing health threat worldwide. Efforts to identify novel antibodies that target S. aureus cell surface antigens are a promising direction in the development of antibiotics that can halt MRSA infection. We biochemically and structurally characterized three patient-derived MRSA-targeting antibodies that bind to wall teichoic acid (WTA), which is a polyanionic surface glycopolymer. In S. aureus, WTA exists in both α- and β-forms, based on the stereochemistry of attachment of a N-acetylglucosamine residue to the repeating phosphoribitol sugar unit. We identified a panel of antibodies cloned from human patients that specifically recognize the α or β form of WTA, and can bind with high affinity to pathogenic wild-type strains of S. aureus bacteria. To investigate how the β-WTA specific antibodies interact with their target epitope, we determined the X-ray crystal structures of the three β-WTA specific antibodies, 4462, 4497, and 6078 (Protein Data Bank IDs 6DWI, 6DWA, and 6DW2, respectively), bound to a synthetic WTA epitope. These structures reveal that all three of these antibodies, while utilizing distinct antibody complementarity-determining region sequences and conformations to interact with β-WTA, fulfill two recognition principles: binding to the β-GlcNAc pyranose core and triangulation of WTA phosphate residues with polar contacts. These studies reveal the molecular basis for targeting a unique S. aureus cell surface epitope and highlight the power of human patient-based antibody discovery techniques for finding novel pathogen-targeting therapeutics.

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Section: Discussionmentioning

confidence: 99%

Structural investigation of humanS. aureus-targeting antibodies that bind wall teichoic acid

Fong¹,

Kajihara²,

Chen³

et al. 2018

mAbs

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“…Gram‐positive cell walls further contain carbohydrate‐based anionic polymers, primarily teichoic acids, which account for roughly half of the mass of the cell wall. Their physiological functions remain elusive but they play a major role in divalent cation binding (particularly Mg 2+ ) (Brown et al ., 2013; Neuhaus and Baddiley, 2003; Heckels et al ., 1977), they serve as scaffolds for a wide range of molecules and they regulate cell wall‐associated enzymes (Yamamoto et al ., 2008; Brown et al ., 2013). …”

Section: Introductionmentioning

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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“…Although both pathogenic and probiotic Gram-positive bacteria express LTA (Neuhaus and Baddiley, 2003), the immunomodulatory properties of the two types are very different. LTAs from pathogenic Gram-positive bacteria such as S. aureus, S. pneumonia, and S. epidermidis, efficiently activate monocytes and macrophages through the secretion of proinflammatory cytokines such as TNF-α, IL-1β, IL-6, and IL-8 (Ellingsen et al, 2002;Mattsson et al, 1993;Standiford et al, 1994).…”

Section: Introductionmentioning

confidence: 99%

Lactobacillus plantarum Lipoteichoic Acid Alleviates TNF-α-Induced Inflammation in the HT-29 Intestinal Epithelial Cell Line

Kim

Jung

et al. 2012

Molecules and Cells

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A Continuum of Anionic Charge: Structures and Functions ofd-Alanyl-Teichoic Acids in Gram-Positive Bacteria

Cited by 896 publications

References 505 publications

Structural investigation of humanS. aureus-targeting antibodies that bind wall teichoic acid

Structural investigation of humanS. aureus-targeting antibodies that bind wall teichoic acid

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

Lactobacillus plantarum Lipoteichoic Acid Alleviates TNF-α-Induced Inflammation in the HT-29 Intestinal Epithelial Cell Line

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A Continuum of Anionic Charge: Structures and Functions ofd-Alanyl-Teichoic Acids in Gram-Positive Bacteria

Cited by 896 publications

References 505 publications

Structural investigation of humanS. aureus-targeting antibodies that bind wall teichoic acid

Structural investigation of humanS. aureus-targeting antibodies that bind wall teichoic acid

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

Lactobacillus plantarum Lipoteichoic Acid Alleviates TNF-α-Induced Inflammation in the HT-29 Intestinal Epithelial Cell Line

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