Glycan-Glycan Interaction Determines
            <i>Shigella</i>
            Tropism toward Human T Lymphocytes

Belotserkovsky, Ilia; Brunner, K. T.; Pinaud, Laurie; Rouvinski, Alexander; Dellarole, Mariano; Baron, Bruno; Dubey, Gyanendra P.; Samassa, Fatoumata; Parsot, Claude; Sansonetti, Philippe J.; Phalipon, Armelle

doi:10.1128/mbio.02309-17

Cited by 28 publications

(28 citation statements)

References 30 publications

(46 reference statements)

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“…Human and bovine milk contain LacCer as a major GSL component , indicating that milk‐derived LacCer is a putative trap and blocking pathogen binding in the intestines, and that milk‐derived LacCer protects the host from invading pathogens. Interactions between the sugar moieties of gangliosides and the polysaccharide moieties of Shigella LPS were found to facilitate binding of bacteria to human CD4 + T cells . Taken together, these observations suggest that specific carbohydrate‐carbohydrate interactions between sugar moieties of GSL and of pathogen‐associated molecular pattern (PAMP) may be related to various immune disorders.…”

Section: Gsls As Immune Modulatorsmentioning

confidence: 87%

The regulatory roles of glycosphingolipid‐enriched lipid rafts in immune systems

et al. 2018

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Lipid rafts formed by glycosphingolipids (GSLs) on cellular membranes play important roles in innate and adaptive immunity. Lactosylceramide (LacCer) forms lipid rafts on plasma and granular membranes of human neutrophils. These LacCer‐enriched lipid rafts bind directly to pathogenic components, such as pathogenic fungi‐derived β‐glucan and Mycobacteria‐derived lipoarabinomannan via carbohydrate‐carbohydrate interactions, and mediate innate immune responses to these pathogens. In contrast, a‐series and o‐series gangliosides form distinct rafts on CD4+ and CD8+ T cell subsets, respectively, contributing to the respective functions of these cells and stimulating adaptive immune responses through T cell receptors. These findings suggest that gangliosides play indispensable roles in T cell selection and activation. This Review introduces the involvement of GSL‐enriched lipid rafts in innate and adaptive immunity.

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Section: Gsls As Immune Modulatorsmentioning

confidence: 87%

The regulatory roles of glycosphingolipid‐enriched lipid rafts in immune systems

et al. 2018

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“…Although the role of the lipid A, core, and O antigen moieties in these processes have been extensively studied, a comprehensive understanding of the interplay between LPS and pathogenesis will require further research. For instance, interactions of LPS with host proteins has been the focus of many studies, but recent research suggests that glycan-glycan interactions between bacteria and their hosts may be more relevant than previously realized [194][195][196]. The advent of new glycan arrays could facilitate the screening and discovery of novel LPS interactions and yield new insights into pathogenic processes [194,197,198].…”

Section: Discussionmentioning

confidence: 99%

The Role of Pseudomonas aeruginosa Lipopolysaccharide in Bacterial Pathogenesis and Physiology

2019

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The major constituent of the outer membrane of Gram-negative bacteria is lipopolysaccharide (LPS), which is comprised of lipid A, core oligosaccharide, and O antigen, which is a long polysaccharide chain extending into the extracellular environment. Due to the localization of LPS, it is a key molecule on the bacterial cell wall that is recognized by the host to deploy an immune defence in order to neutralize invading pathogens. However, LPS also promotes bacterial survival in a host environment by protecting the bacteria from these threats. This review explores the relationship between the different LPS glycoforms of the opportunistic pathogen Pseudomonas aeruginosa and the ability of this organism to cause persistent infections, especially in the genetic disease cystic fibrosis. We also discuss the role of LPS in facilitating biofilm formation, antibiotic resistance, and how LPS may be targeted by new antimicrobial therapies.

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“…A later study by O’Riordan et al showed that glycans from several bacterial pathogens are able to interact with the glycan chains of lactoferrin, a protein present in bovine milk, although in this case no indications on the affinity of these bonds are given [ 142 ]. Finally, the body of evidence documenting the importance of glycan-glycan interactions for bacterial adhesion was recently extended by a study on the adhesion of Shigella to human lymphocytes [ 143 ]. Whereas Day and co-workers revealed the importance of glycan-glycan interactions in mediating binding of Shigella to host epithelial cells [ 139 ], this resent study by Belotserkovsky and co-workers provides evidence that glycan-glycan interactions are critical for Shigella pathogenesis by driving selective interactions with immune cells [ 143 ].…”

Section: Mechanisms Of Glycan-based Adhesion Of Bacteriamentioning

confidence: 99%

“…Finally, the body of evidence documenting the importance of glycan-glycan interactions for bacterial adhesion was recently extended by a study on the adhesion of Shigella to human lymphocytes [ 143 ]. Whereas Day and co-workers revealed the importance of glycan-glycan interactions in mediating binding of Shigella to host epithelial cells [ 139 ], this resent study by Belotserkovsky and co-workers provides evidence that glycan-glycan interactions are critical for Shigella pathogenesis by driving selective interactions with immune cells [ 143 ]. More precisely, they show that sialylated glycosphingolipids interact with the polysaccharide moiety of LPS, the major bacterial surface antigen, thus promoting Shigella binding to T cells.…”

Section: Mechanisms Of Glycan-based Adhesion Of Bacteriamentioning

confidence: 99%

The Role of Glycans in Bacterial Adhesion to Mucosal Surfaces: How Can Single-Molecule Techniques Advance Our Understanding?

et al. 2018

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Bacterial adhesion is currently the subject of increased interest from the research community, leading to fast progress in our understanding of this complex phenomenon. Resent research within this field has documented the important roles played by glycans for bacterial surface adhesion, either through interaction with lectins or with other glycans. In parallel with this increased interest for and understanding of bacterial adhesion, there has been a growth in the sophistication and use of sensitive force probes for single-molecule and single cell studies. In this review, we highlight how the sensitive force probes atomic force microscopy (AFM) and optical tweezers (OT) have contributed to clarifying the mechanisms underlying bacterial adhesion to glycosylated surfaces in general and mucosal surfaces in particular. We also describe research areas where these techniques have not yet been applied, but where their capabilities appear appropriate to advance our understanding.

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Glycan-Glycan Interaction Determines Shigella Tropism toward Human T Lymphocytes

Cited by 28 publications

References 30 publications

The regulatory roles of glycosphingolipid‐enriched lipid rafts in immune systems

The regulatory roles of glycosphingolipid‐enriched lipid rafts in immune systems

The Role of Pseudomonas aeruginosa Lipopolysaccharide in Bacterial Pathogenesis and Physiology

The Role of Glycans in Bacterial Adhesion to Mucosal Surfaces: How Can Single-Molecule Techniques Advance Our Understanding?

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