Your search keyword '"Ten Feizi"' showing total 485 results

1. Synthesis and screening of a library of Lewisx deoxyfluoro-analogues reveals differential recognition by glycan-binding partners

Author

Kristian Hollingsworth, Antonio Di Maio, Sarah-Jane Richards, Jean-Baptiste Vendeville, David E. Wheatley, Claire E. Council, Tessa Keenan, Hélène Ledru, Harriet Chidwick, Kun Huang, Fabio Parmeggiani, Andrea Marchesi, Wengang Chai, Ryan McBerney, Tomasz P. Kamiński, Matthew R. Balmforth, Alexandra Tamasanu, James D. Finnigan, Carl Young, Stuart L. Warriner, Michael E. Webb, Martin A. Fascione, Sabine Flitsch, M. Carmen Galan, Ten Feizi, Matthew I. Gibson, Yan Liu, W. Bruce Turnbull, and Bruno Linclau

Subjects

Science

Abstract

Abstract Glycan-mediated interactions play a crucial role in biology and medicine, influencing signalling, immune responses, and disease pathogenesis. However, the use of glycans in biosensing and diagnostics is limited by cross-reactivity, as certain glycan motifs can be recognised by multiple biologically distinct protein receptors. To address this specificity challenge, we report the enzymatic synthesis of a 150-member library of site-specifically fluorinated Lewisx analogues (‘glycofluoroforms’) using naturally occurring enzymes and fluorinated monosaccharides. Subsequent incorporation of a subset of these glycans into nanoparticles or a microarray revealed a striking spectrum of distinct binding intensities across different proteins that recognise Lewisx. Notably, we show that for two proteins with unique binding sites for Lewisx, glycofluoroforms exhibited enhanced binding to one protein, whilst reduced binding to the other, with selectivity governed by fluorination patterns. We finally showcase the potential diagnostic utility of this approach in glycofluoroform-mediated bacterial toxin detection by lateral flow.

Published

2024

2. Elucidating the glycan-binding specificity and structure of Cucumis melo agglutinin, a new R-type lectin

Author

Jon Lundstrøm, Emilie Gillon, Valérie Chazalet, Nicole Kerekes, Antonio Di Maio, Ten Feizi, Yan Liu, Annabelle Varrot, and Daniel Bojar

Subjects

carbohydrate, glycan array, melon, plant lectin, r-type, Science, Organic chemistry, QD241-441

Abstract

Plant lectins have garnered attention for their roles as laboratory probes and potential therapeutics. Here, we report the discovery and characterization of Cucumis melo agglutinin (CMA1), a new R-type lectin from melon. Our findings reveal CMA1’s unique glycan-binding profile, mechanistically explained by its 3D structure, augmenting our understanding of R-type lectins. We expressed CMA1 recombinantly and assessed its binding specificity using multiple glycan arrays, covering 1,046 unique sequences. This resulted in a complex binding profile, strongly preferring C2-substituted, beta-linked galactose (both GalNAc and Fuca1-2Gal), which we contrasted with the established R-type lectin Ricinus communis agglutinin 1 (RCA1). We also report binding of specific glycosaminoglycan subtypes and a general enhancement of binding by sulfation. Further validation using agglutination, thermal shift assays, and surface plasmon resonance confirmed and quantified this binding specificity in solution. Finally, we solved the high-resolution structure of the CMA1 N-terminal domain using X-ray crystallography, supporting our functional findings at the molecular level. Our study provides a comprehensive understanding of CMA1, laying the groundwork for further exploration of its biological and therapeutic potential.

Published

2024

3. Proteome-wide prediction of bacterial carbohydrate-binding proteins as a tool for understanding commensal and pathogen colonisation of the vaginal microbiome

Author

François Bonnardel, Stuart M. Haslam, Anne Dell, Ten Feizi, Yan Liu, Virginia Tajadura-Ortega, Yukie Akune, Lynne Sykes, Phillip R. Bennett, David A. MacIntyre, Frédérique Lisacek, and Anne Imberty

Subjects

Microbial ecology, QR100-130

Abstract

Abstract Bacteria use carbohydrate-binding proteins (CBPs), such as lectins and carbohydrate-binding modules (CBMs), to anchor to specific sugars on host surfaces. CBPs in the gut microbiome are well studied, but their roles in the vagina microbiome and involvement in sexually transmitted infections, cervical cancer and preterm birth are largely unknown. We established a classification system for lectins and designed Hidden Markov Model (HMM) profiles for data mining of bacterial genomes, resulting in identification of >100,000 predicted bacterial lectins available at unilectin.eu/bacteria. Genome screening of 90 isolates from 21 vaginal bacterial species shows that those associated with infection and inflammation produce a larger CBPs repertoire, thus enabling them to potentially bind a wider array of glycans in the vagina. Both the number of predicted bacterial CBPs and their specificities correlated with pathogenicity. This study provides new insights into potential mechanisms of colonisation by commensals and potential pathogens of the reproductive tract that underpin health and disease states.

Published

2021

4. Mapping Molecular Recognition of β1,3-1,4-Glucans by a Surface Glycan-Binding Protein from the Human Gut Symbiont Bacteroides ovatus

Author

Viviana G. Correia, Filipa Trovão, Benedita A. Pinheiro, Joana L. A. Brás, Lisete M. Silva, Cláudia Nunes, Manuel A. Coimbra, Yan Liu, Ten Feizi, Carlos M. G. A. Fontes, Barbara Mulloy, Wengang Chai, Ana Luísa Carvalho, and Angelina S. Palma

Subjects

β-glucan, Bacteroides ovatus, carbohydrate microarrays, polysaccharide utilization loci, protein-carbohydrate interactions, SusD-like proteins, Microbiology, QR1-502

Abstract

ABSTRACT A multigene polysaccharide utilization locus (PUL) encoding enzymes and surface carbohydrate (glycan)-binding proteins (SGBPs) was recently identified in prominent members of Bacteroidetes in the human gut and characterized in Bacteroides ovatus. This PUL-encoded system specifically targets mixed-linkage β1,3-1,4-glucans, a group of diet-derived carbohydrates that promote a healthy microbiota and have potential as prebiotics. The BoSGBPMLG-A protein encoded by the BACOVA_2743 gene is a SusD-like protein that plays a key role in the PUL’s specificity and functionality. Here, we perform a detailed analysis of the molecular determinants underlying carbohydrate binding by BoSGBPMLG-A, combining carbohydrate microarray technology with quantitative affinity studies and a high-resolution X-ray crystallography structure of the complex of BoSGBPMLG-A with a β1,3-1,4-nonasaccharide. We demonstrate its unique binding specificity toward β1,3-1,4-gluco-oligosaccharides, with increasing binding affinities up to the octasaccharide and dependency on the number and position of β1,3 linkages. The interaction is defined by a 41-Å-long extended binding site that accommodates the oligosaccharide in a mode distinct from that of previously described bacterial β1,3-1,4-glucan-binding proteins. In addition to the shape complementarity mediated by CH-π interactions, a complex hydrogen bonding network complemented by a high number of key ordered water molecules establishes additional specific interactions with the oligosaccharide. These support the twisted conformation of the β-glucan backbone imposed by the β1,3 linkages and explain the dependency on the oligosaccharide chain length. We propose that the specificity of the PUL conferred by BoSGBPMLG-A to import long β1,3-1,4-glucan oligosaccharides to the bacterial periplasm allows Bacteroidetes to outcompete bacteria that lack this PUL for utilization of β1,3-1,4-glucans. IMPORTANCE With the knowledge of bacterial gene systems encoding proteins that target dietary carbohydrates as a source of nutrients and their importance for human health, major efforts are being made to understand carbohydrate recognition by various commensal bacteria. Here, we describe an integrative strategy that combines carbohydrate microarray technology with structural studies to further elucidate the molecular determinants of carbohydrate recognition by BoSGBPMLG-A, a key protein expressed at the surface of Bacteroides ovatus for utilization of mixed-linkage β1,3-1,4-glucans. We have mapped at high resolution interactions that occur at the binding site of BoSGBPMLG-A and provide evidence for the role of key water-mediated interactions for fine specificity and affinity. Understanding at the molecular level how commensal bacteria, such as prominent members of Bacteroidetes, can differentially utilize dietary carbohydrates with potential prebiotic activities will shed light on possible ways to modulate the microbiome to promote human health.

Published

2021

5. A Major Subset of Mutated CLL Expresses Affinity-selected and Functionally Proficient Rheumatoid Factors

Author

Jerry Janssen, Naomi Donner, Zhen Li, Thera A.M. Wormhoudt, Koen Wagner, Jeroen E.J. Guikema, C. Ellen van der Schoot, Arnon P. Kater, Ten Feizi, Richard J. Bende, and Carel J.M. van Noesel

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2021

6. Mannan detecting C-type lectin receptor probes recognise immune epitopes with diverse chemical, spatial and phylogenetic heterogeneity in fungal cell walls.

Author

Ingrida Vendele, Janet A Willment, Lisete M Silva, Angelina S Palma, Wengang Chai, Yan Liu, Ten Feizi, Maria Spyrou, Mark H T Stappers, Gordon D Brown, and Neil A R Gow

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

During the course of fungal infection, pathogen recognition by the innate immune system is critical to initiate efficient protective immune responses. The primary event that triggers immune responses is the binding of Pattern Recognition Receptors (PRRs), which are expressed at the surface of host immune cells, to Pathogen-Associated Molecular Patterns (PAMPs) located predominantly in the fungal cell wall. Most fungi have mannosylated PAMPs in their cell walls and these are recognized by a range of C-type lectin receptors (CTLs). However, the precise spatial distribution of the ligands that induce immune responses within the cell walls of fungi are not well defined. We used recombinant IgG Fc-CTLs fusions of three murine mannan detecting CTLs, including dectin-2, the mannose receptor (MR) carbohydrate recognition domains (CRDs) 4-7 (CRD4-7), and human DC-SIGN (hDC-SIGN) and of the β-1,3 glucan-binding lectin dectin-1 to map PRR ligands in the fungal cell wall of fungi grown in vitro in rich and minimal media. We show that epitopes of mannan-specific CTL receptors can be clustered or diffuse, superficial or buried in the inner cell wall. We demonstrate that PRR ligands do not correlate well with phylogenetic relationships between fungi, and that Fc-lectin binding discriminated between mannosides expressed on different cell morphologies of the same fungus. We also demonstrate CTL epitope differentiation during different phases of the growth cycle of Candida albicans and that MR and DC-SIGN labelled outer chain N-mannans whilst dectin-2 labelled core N-mannans displayed deeper in the cell wall. These immune receptor maps of fungal walls of in vitro grown cells therefore reveal remarkable spatial, temporal and chemical diversity, indicating that the triggering of immune recognition events originates from multiple physical origins at the fungal cell surface.

Published

2020

7. Single human B cell-derived monoclonal anti-Candida antibodies enhance phagocytosis and protect against disseminated candidiasis

Author

Fiona M. Rudkin, Ingrida Raziunaite, Hillary Workman, Sosthene Essono, Rodrigo Belmonte, Donna M. MacCallum, Elizabeth M. Johnson, Lisete M. Silva, Angelina S. Palma, Ten Feizi, Allan Jensen, Lars P. Erwig, and Neil A. R. Gow

Subjects

Science

Abstract

Late diagnosis and ineffective treatment of fungal infections lead to high mortality. Here, Rudkin et al. generate anti-Candida human monoclonal antibodies with diagnostic and therapeutic potential, by expressing recombinant antibodies from genes cloned from B cells of patients suffering candidiasis.

Published

2018

8. Binding of CLL Subset 4 B Cell Receptor Immunoglobulins to Viable Human Memory B Lymphocytes Requires a Distinctive IGKV Somatic Mutation

Author

Rosa Catera, Yun Liu, Chao Gao, Xiao-Jie Yan, Amanda Magli, Steven L. Allen, Jonathan E. Kolitz, Kanti R. Rai, Charles C. Chu, Ten Feizi, Kostas Stamatopoulos, and Nicholas Chiorazzi

Subjects

Therapeutics. Pharmacology, RM1-950, Biochemistry, QD415-436

Abstract

Abstract Amino acid replacement mutations in certain chronic lymphocytic leukemia (CLL) stereotyped B cell receptor (BCR) immunoglobulins (IGs) at defined positions within antigen-binding sites strongly imply antigen selection. Prime examples of this are CLL subset 4 BCR IGs using IGHV4-34/IGHD5-18/IGHJ6 and IGKV2-30/IGKJ2 rearrangements. Conspicuously, and unlike most CLL IGs, subset 4 IGs do not bind apoptotic cells. By testing the (auto)antigenic reactivities of subset 4 IGs toward viable lymphoid-lineage cells and specific autoantigens typically bound by IGHV4-34+ IGs, we found that IGs from both subset 4 and non-subset 4 IGHV4-34-expressing CLL cases bound naïve B cells. However, only subset 4 IGs reacted with memory B cells. Furthermore, subset 4 IGs did not bind DNA nor i or I carbohydrate antigens that are common targets of IGHV4-34-utilizing antibodies in systemic lupus erythematosus and cold agglutinin disease, respectively. Notably, we found that subset 4 IG binding to memory B lymphocytes depends on an aspartic acid at position 66 of FR3 in the rearranged IGKV2-30 gene; this amino acid residue is acquired by somatic mutation. Our findings illustrate the importance of positive and negative selection criteria for structural elements in CLL IGs and suggest that autoantigens driving normal B cells to become subset 4 CLL cells differ from those driving IGHV4-34+ B cells in other diseases.

Published

2017

9. Sulfated Glycosaminoglycans as Viral Decoy Receptors for Human Adenovirus Type 37

Author

Naresh Chandra, Yan Liu, Jing-Xia Liu, Lars Frängsmyr, Nian Wu, Lisete M Silva, Mona Lindström, Wengang Chai, Fatima Pedrosa Domellöf, Ten Feizi, and Niklas Arnberg

Subjects

adenovirus, glycosaminoglycan, cellular receptor, decoy receptor, tropism, epidemic keratoconjunctivitis, antiviral drugs, Microbiology, QR1-502

Abstract

Glycans on plasma membranes and in secretions play important roles in infection by many viruses. Species D human adenovirus type 37 (HAdV-D37) is a major cause of epidemic keratoconjunctivitis (EKC) and infects target cells by interacting with sialic acid (SA)-containing glycans via the fiber knob domain of the viral fiber protein. HAdV-D37 also interacts with sulfated glycosaminoglycans (GAGs), but the outcome of this interaction remains unknown. Here, we investigated the molecular requirements of HAdV-D37 fiber knob:GAG interactions using a GAG microarray and demonstrated that fiber knob interacts with a broad range of sulfated GAGs. These interactions were corroborated in cell-based assays and by surface plasmon resonance analysis. Removal of heparan sulfate (HS) and sulfate groups from human corneal epithelial (HCE) cells by heparinase III and sodium chlorate treatments, respectively, reduced HAdV-D37 binding to cells. Remarkably, removal of HS by heparinase III enhanced the virus infection. Our results suggest that interaction of HAdV-D37 with sulfated GAGs in secretions and on plasma membranes prevents/delays the virus binding to SA-containing receptors and inhibits subsequent infection. We also found abundant HS in the basement membrane of the human corneal epithelium, which may act as a barrier to sub-epithelial infection. Collectively, our findings provide novel insights into the role of GAGs as viral decoy receptors and highlight the therapeutic potential of GAGs and/or GAG-mimetics in HAdV-D37 infection.

Published

2019

10. Protein O-Mannosylation in the Murine Brain: Occurrence of Mono-O-Mannosyl Glycans and Identification of New Substrates.

Author

Markus F Bartels, Patrick R Winterhalter, Jin Yu, Yan Liu, Mark Lommel, Frank Möhrlen, Huaiyu Hu, Ten Feizi, Ulrika Westerlind, Thomas Ruppert, and Sabine Strahl

Subjects

Medicine, Science

Abstract

Protein O-mannosylation is a post-translational modification essential for correct development of mammals. In humans, deficient O-mannosylation results in severe congenital muscular dystrophies often associated with impaired brain and eye development. Although various O-mannosylated proteins have been identified in the recent years, the distribution of O-mannosyl glycans in the mammalian brain and target proteins are still not well defined. In the present study, rabbit monoclonal antibodies directed against the O-mannosylated peptide YAT(α1-Man)AV were generated. Detailed characterization of clone RKU-1-3-5 revealed that this monoclonal antibody recognizes O-linked mannose also in different peptide and protein contexts. Using this tool, we observed that mono-O-mannosyl glycans occur ubiquitously throughout the murine brain but are especially enriched at inhibitory GABAergic neurons and at the perineural nets. Using a mass spectrometry-based approach, we further identified glycoproteins from the murine brain that bear single O-mannose residues. Among the candidates identified are members of the cadherin and plexin superfamilies and the perineural net protein neurocan. In addition, we identified neurexin 3, a cell adhesion protein involved in synaptic plasticity, and inter-alpha-trypsin inhibitor 5, a protease inhibitor important in stabilizing the extracellular matrix, as new O-mannosylated glycoproteins.

Published

2016

11. Human adenovirus 52 uses sialic acid-containing glycoproteins and the coxsackie and adenovirus receptor for binding to target cells.

Author

Annasara Lenman, A Manuel Liaci, Yan Liu, Carin Årdahl, Anandi Rajan, Emma Nilsson, Will Bradford, Lisa Kaeshammer, Morris S Jones, Lars Frängsmyr, Ten Feizi, Thilo Stehle, and Niklas Arnberg

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Most adenoviruses attach to host cells by means of the protruding fiber protein that binds to host cells via the coxsackievirus and adenovirus receptor (CAR) protein. Human adenovirus type 52 (HAdV-52) is one of only three gastroenteritis-causing HAdVs that are equipped with two different fiber proteins, one long and one short. Here we show, by means of virion-cell binding and infection experiments, that HAdV-52 can also attach to host cells via CAR, but most of the binding depends on sialylated glycoproteins. Glycan microarray, flow cytometry, surface plasmon resonance and ELISA analyses reveal that the terminal knob domain of the long fiber (52LFK) binds to CAR, and the knob domain of the short fiber (52SFK) binds to sialylated glycoproteins. X-ray crystallographic analysis of 52SFK in complex with 2-O-methylated sialic acid combined with functional studies of knob mutants revealed a new sialic acid binding site compared to other, known adenovirus:glycan interactions. Our findings shed light on adenovirus biology and may help to improve targeting of adenovirus-based vectors for gene therapy.

Published

2015

12. Structures of B-lymphotropic polyomavirus VP1 in complex with oligosaccharide ligands.

Author

Ursula Neu, Zaigham Mahmood Khan, Benjamin Schuch, Angelina S Palma, Yan Liu, Michael Pawlita, Ten Feizi, and Thilo Stehle

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

B-Lymphotropic Polyomavirus (LPyV) serves as a paradigm of virus receptor binding and tropism, and is the closest relative of the recently discovered Human Polyomavirus 9 (HPyV9). LPyV infection depends on sialic acid on host cells, but the molecular interactions underlying LPyV-receptor binding were unknown. We find by glycan array screening that LPyV specifically recognizes a linear carbohydrate motif that contains α2,3-linked sialic acid. High-resolution crystal structures of the LPyV capsid protein VP1 alone and in complex with the trisaccharide ligands 3'-sialyllactose and 3'-sialyl-N-acetyl-lactosamine (3SL and 3SLN, respectively) show essentially identical interactions. Most contacts are contributed by the sialic acid moiety, which is almost entirely buried in a narrow, preformed cleft at the outer surface of the capsid. The recessed nature of the binding site on VP1 and the nature of the observed glycan interactions differ from those of related polyomaviruses and most other sialic acid-binding viruses, which bind sialic acid in shallow, more exposed grooves. Despite their different modes for recognition, the sialic acid binding sites of LPyV and SV40 are half-conserved, hinting at an evolutionary strategy for diversification of binding sites. Our analysis provides a structural basis for the observed specificity of LPyV for linear glycan motifs terminating in α2,3-linked sialic acid, and links the different tropisms of known LPyV strains to the receptor binding site. It also serves as a useful template for understanding the ligand-binding properties and serological crossreactivity of HPyV9.

Published

2013

13. A structure-guided mutation in the major capsid protein retargets BK polyomavirus.

Author

Ursula Neu, Stacy-Ann A Allen, Bärbel S Blaum, Yan Liu, Martin Frank, Angelina S Palma, Luisa J Ströh, Ten Feizi, Thomas Peters, Walter J Atwood, and Thilo Stehle

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Viruses within a family often vary in their cellular tropism and pathogenicity. In many cases, these variations are due to viruses switching their specificity from one cell surface receptor to another. The structural requirements that underlie such receptor switching are not well understood especially for carbohydrate-binding viruses, as methods capable of structure-specificity studies are only relatively recently being developed for carbohydrates. We have characterized the receptor specificity, structure and infectivity of the human polyomavirus BKPyV, the causative agent of polyomavirus-associated nephropathy, and uncover a molecular switch for binding different carbohydrate receptors. We show that the b-series gangliosides GD3, GD2, GD1b and GT1b all can serve as receptors for BKPyV. The crystal structure of the BKPyV capsid protein VP1 in complex with GD3 reveals contacts with two sialic acid moieties in the receptor, providing a basis for the observed specificity. Comparison with the structure of simian virus 40 (SV40) VP1 bound to ganglioside GM1 identifies the amino acid at position 68 as a determinant of specificity. Mutation of this residue from lysine in BKPyV to serine in SV40 switches the receptor specificity of BKPyV from GD3 to GM1 both in vitro and in cell culture. Our findings highlight the plasticity of viral receptor binding sites and form a template to retarget viruses to different receptors and cell types.

Published

2013

14. The GM2 glycan serves as a functional coreceptor for serotype 1 reovirus.

Author

Kerstin Reiss, Jennifer E Stencel, Yan Liu, Bärbel S Blaum, Dirk M Reiter, Ten Feizi, Terence S Dermody, and Thilo Stehle

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Viral attachment to target cells is the first step in infection and also serves as a determinant of tropism. Like many viruses, mammalian reoviruses bind with low affinity to cell-surface carbohydrate receptors to initiate the infectious process. Reoviruses disseminate with serotype-specific tropism in the host, which may be explained by differential glycan utilization. Although α2,3-linked sialylated oligosaccharides serve as carbohydrate receptors for type 3 reoviruses, neither a specific glycan bound by any reovirus serotype nor the function of glycan binding in type 1 reovirus infection was known. We have identified the oligosaccharide portion of ganglioside GM2 (the GM2 glycan) as a receptor for the attachment protein σ1 of reovirus strain type 1 Lang (T1L) using glycan array screening. The interaction of T1L σ1 with GM2 in solution was confirmed using NMR spectroscopy. We established that GM2 glycan engagement is required for optimal infection of mouse embryonic fibroblasts (MEFs) by T1L. Preincubation with GM2 specifically inhibited type 1 but not type 3 reovirus infection of MEFs. To provide a structural basis for these observations, we defined the mode of receptor recognition by determining the crystal structure of T1L σ1 in complex with the GM2 glycan. GM2 binds in a shallow groove in the globular head domain of T1L σ1. Both terminal sugar moieties of the GM2 glycan, N-acetylneuraminic acid and N-acetylgalactosamine, form contacts with the protein, providing an explanation for the observed specificity for GM2. Viruses with mutations in the glycan-binding domain display diminished hemagglutination capacity, a property dependent on glycan binding, and reduced capacity to infect MEFs. Our results define a novel mode of virus-glycan engagement and provide a mechanistic explanation for the serotype-dependent differences in glycan utilization by reovirus.

Published

2012

15. The role of sialyl glycan recognition in host tissue tropism of the avian parasite Eimeria tenella.

Author

Livia Lai, Janene Bumstead, Yan Liu, James Garnett, Maria A Campanero-Rhodes, Damer P Blake, Angelina S Palma, Wengang Chai, David J P Ferguson, Peter Simpson, Ten Feizi, Fiona M Tomley, and Stephen Matthews

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Eimeria spp. are a highly successful group of intracellular protozoan parasites that develop within intestinal epithelial cells of poultry, causing coccidiosis. As a result of resistance against anticoccidial drugs and the expense of manufacturing live vaccines, it is necessary to understand the relationship between Eimeria and its host more deeply, with a view to developing recombinant vaccines. Eimeria possesses a family of microneme lectins (MICs) that contain microneme adhesive repeat regions (MARR). We show that the major MARR protein from Eimeria tenella, EtMIC3, is deployed at the parasite-host interface during the early stages of invasion. EtMIC3 consists of seven tandem MAR1-type domains, which possess a high specificity for sialylated glycans as shown by cell-based assays and carbohydrate microarray analyses. The restricted tissue staining pattern observed for EtMIC3 in the chicken caecal epithelium indicates that EtMIC3 contributes to guiding the parasite to the site of invasion in the chicken gut. The microarray analyses also reveal a lack of recognition of glycan sequences terminating in the N-glycolyl form of sialic acid by EtMIC3. Thus the parasite is well adapted to the avian host which lacks N-glycolyl neuraminic acid. We provide new structural insight into the MAR1 family of domains and reveal the atomic resolution basis for the sialic acid-based carbohydrate recognition. Finally, a preliminary chicken immunization trial provides evidence that recombinant EtMIC3 protein and EtMIC3 DNA are effective vaccine candidates.

Published

2011

16. Protection by anti-beta-glucan antibodies is associated with restricted beta-1,3 glucan binding specificity and inhibition of fungal growth and adherence.

Author

Antonella Torosantucci, Paola Chiani, Carla Bromuro, Flavia De Bernardis, Angelina S Palma, Yan Liu, Giuseppina Mignogna, Bruno Maras, Marisa Colone, Annarita Stringaro, Silvia Zamboni, Ten Feizi, and Antonio Cassone

Subjects

Medicine, Science

Abstract

Anti-beta-glucan antibodies elicited by a laminarin-conjugate vaccine confer cross-protection to mice challenged with major fungal pathogens such as Candida albicans, Aspergillus fumigatus and Cryptococcus neoformans. To gain insights into protective beta-glucan epitope(s) and protection mechanisms, we studied two anti-beta-glucan monoclonal antibodies (mAb) with identical complementarity-determining regions but different isotypes (mAb 2G8, IgG2b and mAb 1E12, IgM). C. albicans, the most relevant fungal pathogen for humans, was used as a model.Both mAbs bound to fungal cell surface and to the beta1,3-beta1,6 glucan of the fungal cell wall skeleton, as shown by immunofluorescence, electron-microscopy and ELISA. They were also equally unable to opsonize fungal cells in a J774 macrophage phagocytosis and killing assay. However, only the IgG2b conferred substantial protection against mucosal and systemic candidiasis in passive vaccination experiments in rodents. Competition ELISA and microarray analyses using sequence-defined glucan oligosaccharides showed that the protective IgG2b selectively bound to beta1,3-linked (laminarin-like) glucose sequences whereas the non-protective IgM bound to beta1,6- and beta1,4-linked glucose sequences in addition to beta1,3-linked ones. Only the protective IgG2b recognized heterogeneous, polydisperse high molecular weight cell wall and secretory components of the fungus, two of which were identified as the GPI-anchored cell wall proteins Als3 and Hyr1. In addition, only the IgG2b inhibited in vitro two critical virulence attributes of the fungus, hyphal growth and adherence to human epithelial cells.Our study demonstrates that the isotype of anti-beta-glucan antibodies may affect details of the beta-glucan epitopes recognized, and this may be associated with a differing ability to inhibit virulence attributes of the fungus and confer protection in vivo. Our data also suggest that the anti-virulence properties of the IgG2b mAb may be linked to its capacity to recognize beta-glucan epitope(s) on some cell wall components that exert critical functions in fungal cell wall structure and adherence to host cells.

Published

2009

17. Functional implications of glycans and their curation: insights from the workshop held at the 16th Annual International Biocuration Conference in Padua, Italy.

Author

Karina Martinez, Jon Agirre, Yukie Akune, Kiyoko F. Aoki-Kinoshita, Cecilia N. Arighi, Kristian B. Axelsen, Evan Bolton, Emily Bordeleau, Nathan J. Edwards, Elisa Fadda, Ten Feizi, Catherine A. Hayes, Callum M. Ives, Hiren J. Joshi, Khakurel Krishna Prasad, Sofia Kossida, Frédérique Lisacek, Yan Liu, Thomas Lütteke, Junfeng Ma, Adnan Malik, Maria Jesus Martin, Akul Y. Mehta, Sriram Neelamegham, Kalpana Panneerselvam, René Ranzinger, Sylvie Ricard-Blum, Gaoussou Sanou, Vijay Shanker, Paul D. Thomas, Michael Tiemeyer, James Urban, Randi Vita, Jeet Vora, Yasunori Yamamoto, and Raja Mazumder

Published

2024

18. A novel and highly specific Forssman antigen-binding protein from sheep polyomavirus

Author

Nils H. Rustmeier, Lisete M. Silva, Antonio Di Maio, Joshua C. Müller, Alexander Herrmann, Ten Feizi, Yan Liu, and Thilo Stehle

Abstract

Polyomaviruses are small, non-enveloped double-stranded DNA viruses of humans and other mammals, birds, and fish. Infections are usually asymptomatic and result in latency, however, some polyomaviruses can induce severe diseases, including cancer, in immunocompromised individuals. Established cellular receptors for polyomavirus infection are sialylated glycolipids (such as gangliosides), membrane proteins, and glycosaminoglycans. Polyomaviruses are usually highly host specific but the exact principles that govern host tropism remain unknown in many cases. Here, glycan array screening shows that the major capsid protein VP1 of sheep polyomavirus (ShPyV) binds to the Forssman glycolipid, an antigen of many vertebrates and a potential tumor marker in humans. Following closer investigation, we can report for the first time that a neutral, non-sialylated glycolipid acts as a polyomavirus receptor. Concurrently, we present the first report of a viral protein that specifically engages the Forssman antigen. We demonstrate that ShPyV VP1 binds to Forssman-positive erythrocytes but not those of human A, B and O blood groups, which is a clear distinction from features thus far described for Forssman lectins. X-ray crystallography and structural analysis of the VP1-Forssman glycan complex define the terminal Forssman disaccharide as the determinant of this protein-receptor interaction. These results strongly suggest that the sheep polyomavirus can use Forssman antigen for infectious cell entry. Furthermore, the ability of ShPyV VP1 to distinguish Forssman-positive from -negative cells may prove useful for monitoring the Forssman-‘status’ of normal, preneoplastic and neoplastic cells and tissues and establishing the antigen level as a biomarker.Author summaryElucidation of host cell receptor specificities of viral infection is crucial to understand the pathobiology of associated diseases and develop treatments. However, for many polyomaviruses the receptor engagement as the initial event in infection is poorly understood. In only a few cases polyomavirus tropism has been pinned down to a single type of glycan receptor. While many polyomaviruses utilize sialyl glycans to attach to host cells, the role of non-sialylated glycans as receptors is so far underestimated. Here, we show for the first time that a glycan of neutral charge, in this case the carbohydrate portion of the Forssman antigen, acts as a ligand for a polyomavirus capsid protein and may thus contribute to host tropism and infective cell entry. These results represent a significant addition to knowledge on polyomavirus-glycan interactions and complement general principles of carbohydrate engagement by viruses. Furthermore, as a specific binding protein of Forssman antigen, VP1 may help to determine levels of this antigen in healthy and malignant tissues in humans.

Published

2023

19. CarbArrayART: a new software tool for carbohydrate microarray data storage, processing, presentation, and reporting

Author

Yukie Akune, Sena Arpinar, Lisete M Silva, Angelina S Palma, Virginia Tajadura-Ortega, Kiyoko F Aoki-Kinoshita, René Ranzinger, Yan Liu, and Ten Feizi

Subjects

Polysaccharides, Information Storage and Retrieval, Reproducibility of Results, Microarray Analysis, Glycomics, Biochemistry, Software

Abstract

Glycan microarrays are essential tools in glycobiology and are being widely used for assignment of glycan ligands in diverse glycan recognition systems. We have developed a new software, called Carbohydrate microArray Analysis and Reporting Tool (CarbArrayART), to address the need for a distributable application for glycan microarray data management. The main features of CarbArrayART include: (i) Storage of quantified array data from different array layouts with scan data and array-specific metadata, such as lists of arrayed glycans, array geometry, information on glycan-binding samples, and experimental protocols. (ii) Presentation of microarray data as charts, tables, and heatmaps derived from the average fluorescence intensity values that are calculated based on the imaging scan data and array geometry, as well as filtering and sorting functions according to monosaccharide content and glycan sequences. (iii) Data export for reporting in Word, PDF, and Excel formats, together with metadata that are compliant with the guidelines of MIRAGE (Minimum Information Required for A Glycomics Experiment). CarbArrayART is designed for routine use in recording, storage, and management of any slide-based glycan microarray experiment. In conjunction with the MIRAGE guidelines, CarbArrayART addresses issues that are critical for glycobiology, namely, clarity of data for evaluation of reproducibility and validity.

Published

2022

20. Staphylococcal Periscope proteins Aap, SasG, and Pls project noncanonical legume-like lectin adhesin domains from the bacterial surface

Author

Laura C. Clark, Kate E. Atkin, Fiona Whelan, Andrew S. Brentnall, Gemma Harris, Aisling M. Towell, Johan P. Turkenburg, Yan Liu, Ten Feizi, Samuel C. Griffiths, Joan A. Geoghegan, and Jennifer R. Potts

Subjects

Cell Biology, Molecular Biology, Biochemistry

Abstract

Staphylococcus aureus and Staphylococcus epidermidis are frequently associated with medical device infections that involve establishment of a bacterial biofilm on the device surface. Staphylococcal surface proteins Aap, SasG, and Pls are members of the Periscope Protein class and have been implicated in biofilm formation and host colonization; they comprise a repetitive region ("B region") and an N-terminal host colonization domain within the "A region," predicted to be a lectin domain. Repetitive E-G5 domains (as found in Aap, SasG, and Pls) form elongated "stalks" that would vary in length with repeat number, resulting in projection of the N-terminal A domain variable distances from the bacterial cell surface. Here, we present the structures of the lectin domains within A regions of SasG, Aap, and Pls and a structure of the Aap lectin domain attached to contiguous E-G5 repeats, suggesting the lectin domains will sit at the tip of the variable length rod. We demonstrate that these isolated domains (Aap, SasG) are sufficient to bind to human host desquamated nasal epithelial cells. Previously, proteolytic cleavage or a deletion within the A domain had been reported to induce biofilm formation; the structures suggest a potential link between these observations. Intriguingly, while the Aap, SasG, and Pls lectin domains bind a metal ion, they lack the nonproline cis peptide bond thought to be key for carbohydrate binding by the lectin fold. This suggestion of noncanonical ligand binding should be a key consideration when investigating the host cell interactions of these bacterial surface proteins.

Published

2023

21. Characterization of a glycan-binding complex of minor pilins completes the analysis of Streptococcus sanguinis type 4 pili subunits

Author

Meriam Shahin, Devon Sheppard, Claire Raynaud, Jamie-Lee Berry, Ishwori Gurung, Lisete M. Silva, Ten Feizi, Yan Liu, Vladimir Pelicic, MRC Centre for Molecular Microbiology and Infection [Imperial College, London] (CMBI), Imperial College London, Laboratoire de chimie bactérienne (LCB), Aix Marseille Université (AMU)-Centre National de la Recherche Scientifique (CNRS), Institut de Microbiologie de la Méditerranée (IMM), Medical Research Council grant (MR/P022197/1), and Pelicic, Vladimir

Subjects

type 4 pili, [SDV] Life Sciences [q-bio], adhesion, Multidisciplinary, [SDV]Life Sciences [q-bio], pilin

Abstract

Type 4 filaments (T4F)—of which type 4 pili (T4P) are the archetype—are a superfamily of nanomachines nearly ubiquitous in prokaryotes. T4F are polymers of one major pilin, which also contain minor pilins whose roles are often poorly understood. Here, we complete the structure/function analysis of the full set of T4P pilins in the opportunistic bacterial pathogen Streptococcus sanguinis . We determined the structure of the minor pilin PilA, which is unexpectedly similar to one of the subunits of a tip-located complex of four minor pilins, widely conserved in T4F. We found that PilA interacts and dramatically stabilizes the minor pilin PilC. We determined the structure of PilC, showing that it is a modular pilin with a lectin module binding a subset of glycans prevalent in the human glycome, the host of S. sanguinis . Altogether, our findings support a model whereby the minor pilins in S. sanguinis T4P form a tip-located complex promoting adhesion to various host receptors. This has general implications for T4F.

Published

2022

22. Defining the Glycosaminoglycan Interactions of Complement Factor H–Related Protein 5

Author

Nian Wu, Ten Feizi, Jin Yu, Wengang Chai, Talat H. Malik, Matthew C. Pickering, Yan Liu, Elena Goicoechea de Jorge, and Frederick Gyapon-Quast

Subjects

Chemistry, Immunology, Innate Immunity and Inflammation, Glomerulonephritis, Heparan sulfate, medicine.disease, Complement system, Complement (complexity), Cell biology, Glycosaminoglycan, chemistry.chemical_compound, Sulfation, Mediator, 1107 Immunology, Factor H, embryonic structures, medicine, Immunology and Allergy

Abstract

Key Points The pattern and degree of sulfation influenced FHR5–GAG interactions. Surface heparan sulphate enhanced the ability of FHR5 to limit FH binding to C3b., Complement activation is an important mediator of kidney injury in glomerulonephritis. Complement factor H (FH) and FH-related protein 5 (FHR-5) influence complement activation in C3 glomerulopathy and IgA nephropathy by differentially regulating glomerular complement. FH is a negative regulator of complement C3 activation. Conversely, FHR-5 in vitro promotes C3 activation either directly or by competing with FH for binding to complement C3b. The FH–C3b interaction is enhanced by surface glycosaminoglycans (GAGs) and the FH–GAG interaction is well-characterized. In contrast, the contributions of carbohydrates to the interaction of FHR-5 and C3b are unknown. Using plate-based and microarray technologies we demonstrate that FHR-5 interacts with sulfated GAGs and that this interaction is influenced by the pattern and degree of GAG sulfation. The FHR-5–GAG interaction that we identified has functional relevance as we could show that the ability of FHR-5 to prevent binding of FH to surface C3b is enhanced by surface kidney heparan sulfate. Our findings are important in understanding the molecular basis of the binding of FHR-5 to glomerular complement and the role of FHR-5 in complement-mediated glomerular disease.

Published

2021

23. Full structure/function analysis of all the pilin subunits in a type 4 pilus: a complex of minor pilins in Streptococcus sanguinis mediates binding to glycans

Author

Meriam Shahin, Devon Sheppard, Claire Raynaud, Jamie-Lee Berry, Ishwori Gurung, Lisete M. Silva, Ten Feizi, Yan Liu, and Vladimir Pelicic

Abstract

Type 4 filaments (T4F) – of which type 4 pili (T4P) are the archetype – are a superfamily of filamentous nanomachines nearly ubiquitous in prokaryotes. T4F are polymers of one major pilin that also contain minor pilins whose roles are often poorly understood. Here, we complete the structure/function analysis of the full set of T4P pilins in the opportunistic pathogen Streptococcus sanguinis. We determined the structure of the minor pilin PilA, which is unexpectedly similar to one of the subunits of a tip-located complex of four minor pilins, widely conserved in T4F. We found that PilA interacts and dramatically stabilises the minor pilin PilC. We determined the structure of PilC, showing that it is a modular pilin with a lectin module binding a specific subset of glycans prevalent in the human glycome, the host of S. sanguinis. Altogether, our findings support a model whereby the minor pilins in S. sanguinis T4P form a tip-located complex promoting adhesion to various host receptors. Our findings have general implications for a group of minor pilins widely conserved in T4F.

Published

2022

24. Proteome-wide prediction of bacterial carbohydrate-binding proteins as a tool for understanding commensal and pathogen colonisation of the vaginal microbiome

Author

Ten Feizi, Stuart M. Haslam, Frédérique Lisacek, Anne Dell, François Bonnardel, Phillip R. Bennett, Yan Liu, Anne Imberty, Virginia Tajadura-Ortega, Yukie Akune, David A. MacIntyre, Lynne Sykes, Centre de Recherches sur les Macromolécules Végétales (CERMAV), Institut de Chimie du CNRS (INC)-Université Grenoble Alpes (UGA)-Centre National de la Recherche Scientifique (CNRS), and Swiss Institute of Bioinformatics [Genève] (SIB)

Subjects

Proteomics, Proteome, Bacterial genome size, Biology, Applied Microbiology and Biotechnology, Microbiology, Genome, Article, Microbial ecology, 03 medical and health sciences, 0302 clinical medicine, Bacterial Proteins, Lectins, [CHIM]Chemical Sciences, Humans, Microbiome, Pathogen, 030304 developmental biology, 0303 health sciences, Bacteria, Microbiota, QR100-130, Computational Biology, Vaginosis, Bacterial, biology.organism_classification, Commensalism, 3. Good health, Colonisation, Vagina, Female, Pathogens, Carrier Proteins, 030217 neurology & neurosurgery, Biotechnology

Abstract

Bacteria use carbohydrate-binding proteins (CBPs), such as lectins and carbohydrate-binding modules (CBMs), to anchor to specific sugars on host surfaces. CBPs in the gut microbiome are well studied, but their roles in the vagina microbiome and involvement in sexually transmitted infections, cervical cancer and preterm birth are largely unknown. We established a classification system for lectins and designed Hidden Markov Model (HMM) profiles for data mining of bacterial genomes, resulting in identification of >100,000 predicted bacterial lectins available at unilectin.eu/bacteria. Genome screening of 90 isolates from 21 vaginal bacterial species shows that those associated with infection and inflammation produce a larger CBPs repertoire, thus enabling them to potentially bind a wider array of glycans in the vagina. Both the number of predicted bacterial CBPs and their specificities correlated with pathogenicity. This study provides new insights into potential mechanisms of colonisation by commensals and potential pathogens of the reproductive tract that underpin health and disease states.

Published

2021

25. Spatial mapping of immunological epitopes in the Candida cell wall using C-type lectin probes

Author

Ingrida Vendele, Ten Feizi, Maria Spyrou, Mark Stappers, Gordon Brown, Janet Willment, Lisete Silva, Angelina Palma, Wengang Chaie, Yan Liu, and Neil Gow

Subjects

General Materials Science

Abstract

The primary recognition event between a fungal pathogen and the immune system normally involves the engagement of a pattern recognition receptor with specific components of the cell wall. However, the cell wall is a complex three dimensional structure whose composition changes rapidly in accordance with environmental stimuli. Therefore it is important to know what is the precise nature of the primary recognition event, how many events occur to activate the immune response and how these recognition events are affected by changes in cell wall architecture, cellular morphogenesis and physiological adaptation of the pathogen to specific niches in the human body. We address this fundamental question using four soluble immune C-Type lectin receptor-probes which recognize specific mannans and β-1,3 glucan in the cell wall. We use these C-type lectin probes to demonstrate that mannan epitopes are differentially distributed in the inner and outer layers of fungal cell wall in a clustered or diffuse manner. Immune reactivity of fungal cell surfaces did not correlate with relatedness of different fungal species, and mannan-detecting receptor-probes discriminated between cell surface mannans generated by the same fungus growing under different conditions. These studies demonstrate that mannan-epitopes within fungal cell walls are differentially distributed and dynamically expressed as the fungus adapted to microenvironments that would be encountered in vivo.

Published

2021

26. Mapping Molecular Recognition of β1,3-1,4-Glucans by a Surface Glycan-Binding Protein from the Human Gut Symbiont Bacteroides ovatus

Author

Cláudia Nunes, Manuel A. Coimbra, Joana L. A. Brás, Filipa Trovão, Carlos M. G. A. Fontes, Lisete M. Silva, Ten Feizi, Benedita A Pinheiro, Barbara Mulloy, Wengang Chai, Angelina Sá Palma, Yan Liu, Viviana G Correia, Ana Luísa Carvalho, UCIBIO - Applied Molecular Biosciences Unit, and DQ - Departamento de Química

Subjects

Microbiology (medical), Glycan, Physiology, Oligosaccharides, β-glucan, 010402 general chemistry, 01 natural sciences, Bacteroides ovatus, Microbiology, 03 medical and health sciences, Molecular recognition, Bacterial Proteins, SDG 3 - Good Health and Well-being, SusD-like proteins, Dietary Carbohydrates, Genetics, Bacteroides, Humans, Protein–carbohydrate interactions, Microbiome, Binding site, Glucans, Binding selectivity, 030304 developmental biology, X-ray crystallography, 2. Zero hunger, 0303 health sciences, Binding Sites, General Immunology and Microbiology, Ecology, biology, Chemistry, Binding protein, Membrane Proteins, polysaccharide utilization loci, Cell Biology, Periplasmic space, QR1-502, Gastrointestinal Microbiome, 0104 chemical sciences, Bacteroides ovatu, Infectious Diseases, Biochemistry, Periplasm, protein-carbohydrate interactions, biology.protein, Carrier Proteins, Research Article, carbohydrate microarrays

Abstract

contract DL-57/2016 WT108430/Z/15/Z WT218304/Z/19/Z 22-FY18-821 A multigene polysaccharide utilization locus (PUL) encoding enzymes and surface carbohydrate (glycan)-binding proteins (SGBPs) was recently identified in prominent members of Bacteroidetes in the human gut and characterized in Bacteroides ovatus. This PUL-encoded system specifically targets mixed-linkage β1,3-1,4-glucans, a group of diet-derived carbohydrates that promote a healthy microbiota and have potential as prebiotics. The BoSGBPMLG-A protein encoded by the BACOVA_2743 gene is a SusD-like protein that plays a key role in the PUL's specificity and functionality. Here, we perform a detailed analysis of the molecular determinants underlying carbohydrate binding by BoSGBPMLG-A, combining carbohydrate microarray technology with quantitative affinity studies and a high-resolution X-ray crystallography structure of the complex of BoSGBPMLG-A with a β1,3-1,4-nonasaccharide. We demonstrate its unique binding specificity toward β1,3-1,4-gluco-oligosaccharides, with increasing binding affinities up to the octasaccharide and dependency on the number and position of β1,3 linkages. The interaction is defined by a 41-Å-long extended binding site that accommodates the oligosaccharide in a mode distinct from that of previously described bacterial β1,3-1,4-glucan-binding proteins. In addition to the shape complementarity mediated by CH-π interactions, a complex hydrogen bonding network complemented by a high number of key ordered water molecules establishes additional specific interactions with the oligosaccharide. These support the twisted conformation of the β-glucan backbone imposed by the β1,3 linkages and explain the dependency on the oligosaccharide chain length. We propose that the specificity of the PUL conferred by BoSGBPMLG-A to import long β1,3-1,4-glucan oligosaccharides to the bacterial periplasm allows Bacteroidetes to outcompete bacteria that lack this PUL for utilization of β1,3-1,4-glucans. IMPORTANCE With the knowledge of bacterial gene systems encoding proteins that target dietary carbohydrates as a source of nutrients and their importance for human health, major efforts are being made to understand carbohydrate recognition by various commensal bacteria. Here, we describe an integrative strategy that combines carbohydrate microarray technology with structural studies to further elucidate the molecular determinants of carbohydrate recognition by BoSGBPMLG-A, a key protein expressed at the surface of Bacteroides ovatus for utilization of mixed-linkage β1,3-1,4-glucans. We have mapped at high resolution interactions that occur at the binding site of BoSGBPMLG-A and provide evidence for the role of key water-mediated interactions for fine specificity and affinity. Understanding at the molecular level how commensal bacteria, such as prominent members of Bacteroidetes, can differentially utilize dietary carbohydrates with potential prebiotic activities will shed light on possible ways to modulate the microbiome to promote human health. publishersversion published

Published

2021

27. The effect of secretor status and the vaginal microbiome on birth outcome

Author

Lynne Sykes, Richard G. Brown, Yun S. Lee, Holly V. Lewis, Yan Liu, Ten Feizi, Julian Marchesi, Denise Chan, David A. MacIntyre, Stuart M. Haslam, Samit Kundu, L Kindinger, Phil Bennett, and Anne Dell

Subjects

fluids and secretions, biology, Antigen, Lactobacillus, Cohort, Vaginal microbiome, biology.protein, Physiology, Early pregnancy factor, Lactobacillus species, Ethnically diverse, biology.organism_classification, Gestational length

Abstract

SummaryMutations in the FUT2 gene that result in a lack of expression of histo-blood group antigens on secreted glycoproteins may shape the vaginal microbiota with consequences for birth outcome. To test this, we analysed the relationship between secretor status, vaginal microbiota and gestational length in an ethnically diverse cohort of 313 pregnant women, including 91 who delivered prematurely. Lactobacillus species were found to co-occur less often with other microbial taxa in non-secretors. Moreover, non-secretors with Lactobacillus spp. depleted vaginal microbiota in early pregnancy had significantly shorter gestational length than Lactobacillus spp. dominated non-secretors (mean of 245.5 (SD=44.5) versus 265.9 (23.6)); p=0.045), but not compared to Lactobacillus spp. dominated (261.8 (27.5)) and depleted (264.3 days (21.2)) secretors. In identifying a relationship between blood-group antigen expression and vaginal microbiota-host interactions, our results point towards stratification by secretor status as an important factor for considering preterm birth risk and prevention.

Published

2021

28. Correction for McAllister et al., 'Chikungunya Virus Strains from Each Genetic Clade Bind Sulfated Glycosaminoglycans as Attachment Factors'

Author

Terence S. Dermody, Ten Feizi, Yan Liu, Nian Wu, Kelly L. Warfield, Lisete M. Silva, Nicole McAllister, Laurie A. Silva, Lo Vang, Jeff Alexander, Wengang Chai, Anthony J. Lentscher, Michael S. Diamond, Krishnan Raghunathan, and Kira A. Griswold

Subjects

chikungunya virus, viruses, attachment factors, Immunology, virus diseases, Biology, medicine.disease_cause, Microbiology, Virology, Virus, Virus-Cell Interactions, Glycosaminoglycan, Sulfation, glycosaminoglycans, Insect Science, medicine, alphavirus, glycans, heparan sulfate, Chikungunya, Spotlight, glycan microarrays, Clade

Abstract

Alphavirus infections are a global health threat, contributing to outbreaks of disease in many parts of the world. Recent epidemics caused by CHIKV, an arthritogenic alphavirus, resulted in more than 8.5 million cases as the virus has spread into new geographic regions, including the Western Hemisphere. CHIKV causes disease in the majority of people infected, leading to severe and debilitating arthritis. Despite the severity of CHIKV disease, there are no licensed therapeutics. Since attachment factors and receptors are determinants of viral tropism and pathogenesis, understanding these virus-host interactions can enhance our knowledge of CHIKV infection. We analyzed over 670 glycans and identified GAGs as the main glycan bound by CHIKV. We defined specific GAG components required for CHIKV binding and assessed strain-specific differences in GAG binding capacity. These studies provide insight about cell surface molecules that CHIKV binds, which could facilitate the development of antiviral therapeutics targeting the CHIKV attachment step., Chikungunya virus (CHIKV) is an arthritogenic alphavirus that causes debilitating musculoskeletal disease. CHIKV displays broad cell, tissue, and species tropism, which may correlate with the attachment factors and entry receptors used by the virus. Cell surface glycosaminoglycans (GAGs) have been identified as CHIKV attachment factors. However, the specific types of GAGs and potentially other glycans to which CHIKV binds and whether there are strain-specific differences in GAG binding are not fully understood. To identify the types of glycans bound by CHIKV, we conducted glycan microarray analyses and discovered that CHIKV preferentially binds GAGs. Microarray results also indicate that sulfate groups on GAGs are essential for CHIKV binding and that CHIKV binds most strongly to longer GAG chains of heparin and heparan sulfate. To determine whether GAG binding capacity varies among CHIKV strains, a representative strain from each genetic clade was tested. While all strains directly bound to heparin and chondroitin sulfate in enzyme-linked immunosorbent assays (ELISAs) and depended on heparan sulfate for efficient cell binding and infection, we observed some variation by strain. Enzymatic removal of cell surface GAGs and genetic ablation that diminishes GAG expression reduced CHIKV binding and infectivity of all strains. Collectively, these data demonstrate that GAGs are the preferred glycan bound by CHIKV, enhance our understanding of the specific GAG moieties required for CHIKV binding, define strain differences in GAG engagement, and provide further evidence for a critical function of GAGs in CHIKV cell attachment and infection. IMPORTANCE Alphavirus infections are a global health threat, contributing to outbreaks of disease in many parts of the world. Recent epidemics caused by CHIKV, an arthritogenic alphavirus, resulted in more than 8.5 million cases as the virus has spread into new geographic regions, including the Western Hemisphere. CHIKV causes disease in the majority of people infected, leading to severe and debilitating arthritis. Despite the severity of CHIKV disease, there are no licensed therapeutics. Since attachment factors and receptors are determinants of viral tropism and pathogenesis, understanding these virus-host interactions can enhance our knowledge of CHIKV infection. We analyzed over 670 glycans and identified GAGs as the main glycan bound by CHIKV. We defined specific GAG components required for CHIKV binding and assessed strain-specific differences in GAG binding capacity. These studies provide insight about cell surface molecules that CHIKV binds, which could facilitate the development of antiviral therapeutics targeting the CHIKV attachment step.

Published

2021

29. Characterization of a glycan-binding complex of minor pilins completes the analysis of Streptococcus sanguinis type 4 pili subunits.

Author

Shahin, Meriam, Sheppard, Devon, Raynaud, Claire, Berry, Jamie-Lee, Ishwori Gurung, Silva, Lisete M., Ten Feizi, Yan Liu, and Pelicic, Vladimir

Subjects

STREPTOCOCCUS sanguis, GLYCANS

Abstract

Type 4 filaments (T4F)--of which type 4 pili (T4P) are the archetype--are a superfamily of nanomachines nearly ubiquitous in prokaryotes. T4F are polymers of one major pilin, which also contain minor pilins whose roles are often poorly understood. Here, we complete the structure/function analysis of the full set of T4P pilins in the opportunistic bacterial pathogen Streptococcus sanguinis. We determined the structure of the minor pilin PilA, which is unexpectedly similar to one of the subunits of a tip-located complex of four minor pilins, widely conserved in T4F. We found that PilA interacts and dramatically stabilizes the minor pilin PilC. We determined the structure of PilC, showing that it is a modular pilin with a lectin module binding a subset of glycans prevalent in the human glycome, the host of S. sanguinis. Altogether, our findings support a model whereby the minor pilins in S. sanguinis T4P form a tip-located complex promoting adhesion to various host receptors. This has general implications for T4F. [ABSTRACT FROM AUTHOR]

Published

2023

30. Glycan Markers of Human Stem Cells Assigned with Beam Search Arrays*[S]

Author

Yanfei Peng, Barbara Mulloy, Wengang Chai, Robert J. Linhardt, Yan Liu, Fuming Zhang, Nian Wu, Li Fu, Lisete M. Silva, Toshisuke Kawasaki, Yibing Zhang, Chao Gao, and Ten Feizi

Subjects

Biochemistry & Molecular Biology, Glycan, Microarray, medicine.drug_class, Keratan sulfate, Protein Array Analysis, Stem cells, glycan arrays, Computational biology, glycan roles, Stem cell marker, Monoclonal antibody, Biochemistry, glycomics, Analytical Chemistry, micro arrays, Glycomics, 03 medical and health sciences, chemistry.chemical_compound, Antigen, Polysaccharides, growth factors, medicine, Humans, antibodies, glycan markers, Molecular Biology, Cells, Cultured, Embryonic Stem Cells, mass spectrometry, 030304 developmental biology, 0303 health sciences, keratan sulfate, biology, Research, 030302 biochemistry & molecular biology, Antibodies, Monoclonal, NMR, 3. Good health, carbohydrates (lipids), Carbohydrate Sequence, chemistry, Antigens, Surface, biology.protein, Proteoglycans, Stem cell, Biomarkers

Abstract

R-10G antigen of human iPS and ES cells has been assigned as a unique mono-sulfated glycan. We highlight its relationship to a known bioactive glycan sequence, the ligand on high endothelial venules for the lymphocyte homing receptor, L-selectin. Details of the sequences of four other glycan antigens on the podocalyxin are re-evaluated and ambiguities resolved. Regulation of biosynthesis and possible involvements of these glycans in podocalyxin-signaling in stem cells are discussed., Graphical Abstract Highlights R-10G is a mono-sulfated glycan antigen of human iPS and ES cells on podocalyxin. R-10G and nonsulfated i are reciprocal antigens on type 2 glycan backbones. TRA-1–60 and -81 and FC10.2 are antigens expressed on unsulfated type 1 backbones. These assignments open the way to probing their roles in podocalyxin-signaling., Glycan antigens recognized by monoclonal antibodies have served as stem cell markers. To understand regulation of their biosynthesis and their roles in stem cell behavior precise assignments are required. We have applied state-of-the-art glycan array technologies to compare the glycans bound by five antibodies that recognize carbohydrates on human stem cells. These are: FC10.2, TRA-1–60, TRA-1–81, anti-i and R-10G. Microarray analyses with a panel of sequence-defined glycans corroborate that FC10.2, TRA-1–60, TRA-1–81 recognize the type 1-(Galβ-3GlcNAc)-terminating backbone sequence, Galβ-3GlcNAcβ-3Galβ-4GlcNAcβ-3Galβ-4GlcNAc, and anti-i, the type 2-(Galβ-4GlcNAc) analog, Galβ-4GlcNAcβ-3Galβ-4GlcNAcβ-3Galβ-4GlcNAc, and we determine substituents they can accommodate. They differ from R-10G, which requires sulfate. By Beam Search approach, starting with an antigen-positive keratan sulfate polysaccharide, followed by targeted iterative microarray analyses of glycan populations released with keratanases and mass spectrometric monitoring, R-10G is assigned as a mono-sulfated type 2 chain with 6-sulfation at the penultimate N-acetylglucosamine, Galβ-4GlcNAc(6S)β-3Galβ-4GlcNAcβ-3Galβ-4GlcNAc. Microarray analyses using newly synthesized glycans corroborate the assignment of this unique determinant raising questions regarding involvement as a ligand in the stem cell niche.

Published

2019

31. A Major Subset of Mutated CLL Expresses Affinity-selected and Functionally Proficient Rheumatoid Factors

Author

Koen Wagner, Richard J. Bende, Naomi Donner, Jerry Janssen, Thera A. M. Wormhoudt, C. Ellen van der Schoot, Ten Feizi, Arnon P. Kater, Jeroen E. J. Guikema, Carel J. M. van Noesel, Zhen Li, Graduate School, CCA - Imaging and biomarkers, Pathology, CCA - Cancer biology and immunology, Landsteiner Laboratory, Experimental Immunology, Clinical Haematology, and AII - Cancer immunology

Subjects

Text mining, Letter, business.industry, lcsh:RC633-647.5, MEDLINE, Hematology, Computational biology, lcsh:Diseases of the blood and blood-forming organs, Biology, business

Published

2021

32. Chikungunya virus strains from each genetic clade bind sulfated glycosaminoglycans as attachment factors

Author

Anthony J. Lentscher, Laurie A. Silva, Michael S. Diamond, Terence S. Dermody, Wengang Chai, Lisete M. Silva, Lo Vang, Ten Feizi, Yan Liu, Kelly L. Warfield, Jeff Alexander, Nicole McAllister, Kira A. Griswold, Nian Wu, Krishnan Raghunathan, and Wellcome Trust

Subjects

Glycan, Glycans, viruses, Immunology, Virus Attachment, Attachment factors, Heparan sulfate, Alphavirus, Biology, medicine.disease_cause, Microbiology, Virus, Cell Line, 03 medical and health sciences, chemistry.chemical_compound, Polysaccharides, 07 Agricultural and Veterinary Sciences, Virology, medicine, Animals, Humans, Chikungunya, Glucuronosyltransferase, Author Correction, 11 Medical and Health Sciences, Tropism, 030304 developmental biology, Glycosaminoglycans, Infectivity, 0303 health sciences, Glycan microarrays, Heparin, 030306 microbiology, Arthritis, virus diseases, 06 Biological Sciences, biology.organism_classification, 3. Good health, Viral Tropism, chemistry, Insect Science, Tissue tropism, biology.protein, Chikungunya Fever, Heparitin Sulfate, Chikungunya virus

Abstract

Chikungunya virus (CHIKV) is an arthritogenic alphavirus that causes debilitating musculoskeletal disease. CHIKV displays broad cell, tissue, and species tropism, which may correlate with the attachment factors and entry receptors used by the virus. Cell surface glycosaminoglycans (GAGs) have been identified as CHIKV attachment factors. However, the specific types of GAGs and potentially other glycans to which CHIKV binds and whether there are strain-specific differences in GAG binding are not fully understood. To identify the types of glycans bound by CHIKV, we conducted glycan microarray analyses and discovered that CHIKV preferentially binds GAGs. Microarray results also indicate that sulfate groups on GAGs are essential for CHIKV binding and that CHIKV binds most strongly to longer GAG chains of heparin and heparan sulfate. To determine whether GAG binding capacity varies among CHIKV strains, a representative strain from each genetic clade was tested. While all strains directly bound to heparin and chondroitin sulfate in enzyme-linked immunosorbent assays (ELISAs) and depended on heparan sulfate for efficient cell binding and infection, we observed some variation by strain. Enzymatic removal of cell surface GAGs and genetic ablation that diminishes GAG expression reduced CHIKV binding and infectivity of all strains. Collectively, these data demonstrate that GAGs are the preferred glycan bound by CHIKV, enhance our understanding of the specific GAG moieties required for CHIKV binding, define strain differences in GAG engagement, and provide further evidence for a critical function of GAGs in CHIKV cell attachment and infection.IMPORTANCE Alphavirus infections are a global health threat, contributing to outbreaks of disease in many parts of the world. Recent epidemics caused by CHIKV, an arthritogenic alphavirus, resulted in more than 8.5 million cases as the virus has spread into new geographic regions, including the Western Hemisphere. CHIKV causes disease in the majority of people infected, leading to severe and debilitating arthritis. Despite the severity of CHIKV disease, there are no licensed therapeutics. Since attachment factors and receptors are determinants of viral tropism and pathogenesis, understanding these virus-host interactions can enhance our knowledge of CHIKV infection. We analyzed over 670 glycans and identified GAGs as the main glycan bound by CHIKV. We defined specific GAG components required for CHIKV binding and assessed strain-specific differences in GAG binding capacity. These studies provide insight about cell surface molecules that CHIKV binds, which could facilitate the development of antiviral therapeutics targeting the CHIKV attachment step.

Published

2020

33. Helicobacter pylori lipopolysaccharide structural domains and their recognition by immune proteins revealed with carbohydrate microarrays

Author

José Alexandre Ferreira, Ten Feizi, Maria Rosário Domingues, Ricardo Marcos-Pinto, Rui M. Ferreira, Celso A. Reis, Ana Magalhães, Ana S. P. Moreira, Manuel A. Coimbra, Nuno F. Azevedo, Lisete M. Silva, Viviana G. Correia, Ceu Figueiredo, Angelina S. Palma, Fátima Carneiro, UCIBIO - Applied Molecular Biosciences Unit, and DQ - Departamento de Química

Subjects

Adult, Male, Lipopolysaccharides, Polymers and Plastics, Lipopolysaccharide, Microarray, Polymers, Galectins, Receptors, Cell Surface, Human sera, 02 engineering and technology, Biology, 010402 general chemistry, 01 natural sciences, Carbohydrate microarrays, 0305 Organic Chemistry, Helicobacter Infections, Microbiology, chemistry.chemical_compound, Host immune receptors, Immune system, Materials Chemistry, Humans, Lectins, C-Type, Antigens, Bacterial, Host Microbial Interactions, Strain (chemistry), Helicobacter pylori, Mass spectrometry, Organic Chemistry, Blood Proteins, 0303 Macromolecular and Materials Chemistry, Middle Aged, Carbohydrate, 021001 nanoscience & nanotechnology, biology.organism_classification, 0104 chemical sciences, Carbohydrate Sequence, chemistry, Immunoglobulin G, biology.protein, Female, lipids (amino acids, peptides, and proteins), Antibody, DNA microarray, 0210 nano-technology, Cell Adhesion Molecules, 0908 Food Sciences

Abstract

Thanks are due to the University of Aveiro and FCT - Fundacao para a Ciencia e a Tecnologia/MCT (Portugal) for the financial support for the QOPNA Research Unit (UID/QUI/00062/2019), LAQV-REQUIMTE (UIDB/50006/2020), CICECO - Aveiro Institute of Materials (UIDB/50011/2020+UIDP/50011/2020), CESAM (UIDB/50017/2020+UIDP/50017/2020) and RNEM (LISBOA-01-0145-FEDER-402-022125), and LEPABE (UIDB/00511/2020) through national founds and, where applicable, co-financed by the FEDER - Fundo Europeu de Desenvolvimento Regional, within the PT2020 Partnership Agreement, and to the Portuguese NMR Network; and the Applied Molecular Biosciences UnitUCIBIO which is financed by national funds from FCT (UIDB/04378/2020). This work was also supported by project grants from FCT (EXPL/BBB-BQB/0750/2012 and PTDC/BIA-MIB/31730/2017), a Biomedical Resource grant from Wellcome Trust (WT099197MA); and FCT individual grants to LMS (SFRH/BD/71455/2010), VGC (PD/BD/105727/2014), ASPM (SFRH/BD/80553/2011), AM (FRH/BPD/75871/2011), FCT researcher positions under the Individual Call to Scientific Employment Stimulus 2007 call to JAF (CEECIND/03186/2017) and to RMF (CEECIND/01854/2017), and FCT Investigator (GN12IF/00033/2012 GN212) to ASP. Made available in DSpace on 2021-10-09T04:54:21Z (GMT). No. of bitstreams: 0 Previous issue date: 2021-02-01 publishersversion published

Published

2020

34. Proteome-wide prediction of bacterial carbohydrate-binding proteins as a tool for understanding commensal and pathogen colonisation of the vaginal microbiome

Author

Stuart M. Haslam, Ten Feizi, David A. MacIntyre, Anne Imberty, Phillip R. Bennett, Yukie Akune, Anne Dell, Yan Liu, Virginia Tajadura-Ortega, Lynne Sykes, François Bonnardel, and Frédérique Lisacek

Subjects

Bacterial adhesin, Colonisation, biology, Proteome, biology.protein, Lectin, UniProt, biology.organism_classification, Genome, Pathogen, Bacteria, Microbiology

Abstract

Lectins, such as adhesins and toxins, are carbohydrate-binding proteins that recognise glycans of cells and their secretions. While mediation of microbe-microbe and microbe-host interactions by lectins has long been recognised in the lung and gut, little is known about those in the vagina, where such interactions are implicated in health and various disease states. These include sexually transmitted infections, cervical cancer and poor pregnancy outcomes such as preterm birth. In this study, the curated UniLectin3D database was used to establish a lectin classification based primarily on taxonomy and protein 3D structure. The resulting 109 lectin classes were characterised by specific Hidden Markov Model (HMM) profiles. Screening of microbial genomes in the UniProt and NCBI NR sequence databases resulted in identification of >100 000 predicted bacterial lectins available at unilectin.eu/bacteria. Screening of the complete genomes of 90 isolates from 21 vaginal bacterial species showed that the predicted lectomes (ensemble of predicted lectins) of Lactobacilli associated with vaginal health are substantially less diverse than those of pathogens and pathobionts. Both the number of predicted bacterial lectins, and their specificities for carbohydrates correlated with pathogenicity. This study provides new insights into potential mechanisms of commensal and pathogen colonisation of the reproductive tract that underpin health and disease states.

Published

2020

35. Siglec-15 recognition of sialoglycans on tumor cell lines can occur independently of sialyl Tn antigen expression

Author

Alexandra Franz, Gavuthami Murugesan, Brigitte Laux, Klaus Fuchs, Bernd Weigle, Chunxia Li, Angelina S. Palma, Ten Feizi, Eva Martin, Paul R. Crocker, Wengang Chai, and Viviana G. Correia

Subjects

medicine.drug_class, AcademicSubjects/SCI01000, Immunoglobulins, Syk, Monoclonal antibody, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Antigen, Polysaccharides, Tumor Cells, Cultured, medicine, cancer, Humans, Antigens, Tumor-Associated, Carbohydrate, Avidity, Progenitor cell, Cancer Biology, 030304 developmental biology, 0303 health sciences, biology, Membrane Proteins, SIGLEC, respiratory system, siglec, Coculture Techniques, Cell biology, Sialic acid, chemistry, sialic acid, 030220 oncology & carcinogenesis, Sialic Acids, biology.protein, Antibody

Abstract

Siglec-15 is a conserved sialic acid-binding Ig-like lectin expressed on osteoclast progenitors, which plays an important role in osteoclast development and function. It is also expressed by tumor-associated macrophages and by some tumors, where it is thought to contribute to the immunosuppressive microenvironment. It was shown previously that engagement of macrophage-expressed Siglec-15 with tumor cells expressing its ligand, sialyl Tn (sTn), triggered production of TGF-β. In the present study, we have further investigated the interaction between Siglec-15 and sTn on tumor cells and its functional consequences. Based on binding assays with lung and breast cancer cell lines and glycan-modified cells, we failed to see evidence for recognition of sTn by Siglec-15. However, using a microarray of diverse, structurally defined glycans, we show that Siglec-15 binds with higher avidity to sialylated glycans other than sTn or related antigen sequences. In addition, we were unable to demonstrate enhanced TGF-β secretion following co-culture of Siglec-15-expressing monocytic cell lines with tumor cells expressing sTn or following Siglec-15 cross-linking with monoclonal antibodies. However, we did observe activation of the SYK/MAPK signaling pathway following antibody cross-linking of Siglec-15 that may modulate the functional activity of macrophages.

Published

2020

36. Mannan detecting C-type lectin receptor probes recognise immune epitopes with diverse chemical, spatial and phylogenetic heterogeneity in fungal cell walls

Author

Maria Spyrou, Angelina S. Palma, Wengang Chai, Janet A. Willment, Neil A. R. Gow, Yan Liu, Gordon D. Brown, Mark H. T. Stappers, Ingrida Vendele, Ten Feizi, and Lisete M. Silva

Subjects

Fungal Structure, Yeast and Fungal Models, Immune receptor, Pathology and Laboratory Medicine, Immune Receptors, Biochemistry, CYSTEINE-RICH DOMAIN, Epitope, Mannans, C-type lectin, Cell Wall, 1108 Medical Microbiology, Medicine and Health Sciences, Biology (General), Receptor, Phylogeny, Candida, Fungal Pathogens, 0303 health sciences, Immune System Proteins, Chemistry, Pattern recognition receptor, Eukaryota, Cell biology, Experimental Organism Systems, Medical Microbiology, INFECTIONS, 1107 Immunology, Saccharomyces Cerevisiae, PATHOGENIC FUNGUS, Pathogens, Cellular Structures and Organelles, BETA-GLUCAN, Life Sciences & Biomedicine, N-GLYCANS, Mannose receptor, Research Article, Signal Transduction, 0605 Microbiology, Cell Binding, Cell Physiology, QH301-705.5, Immunology, MANNOSE RECEPTOR, Receptors, Cell Surface, chemical and pharmacologic phenomena, Mycology, Research and Analysis Methods, Microbiology, DC-SIGN, 03 medical and health sciences, Saccharomyces, Immune system, Cell Walls, Model Organisms, HOST-DEFENSE, Virology, Genetics, Candida Albicans, Humans, Lectins, C-Type, Molecular Biology, Microbial Pathogens, 030304 developmental biology, CANDIDA-ALBICANS, DECTIN-1, Innate immune system, Science & Technology, 030306 microbiology, Organisms, Fungi, Biology and Life Sciences, Proteins, Cell Biology, RC581-607, Yeast, Mycoses, Animal Studies, Parasitology, Immunologic diseases. Allergy, Pattern Recognition Receptors, Cell Adhesion Molecules

Abstract

During the course of fungal infection, pathogen recognition by the innate immune system is critical to initiate efficient protective immune responses. The primary event that triggers immune responses is the binding of Pattern Recognition Receptors (PRRs), which are expressed at the surface of host immune cells, to Pathogen-Associated Molecular Patterns (PAMPs) located predominantly in the fungal cell wall. Most fungi have mannosylated PAMPs in their cell walls and these are recognized by a range of C-type lectin receptors (CTLs). However, the precise spatial distribution of the ligands that induce immune responses within the cell walls of fungi are not well defined. We used recombinant IgG Fc-CTLs fusions of three murine mannan detecting CTLs, including dectin-2, the mannose receptor (MR) carbohydrate recognition domains (CRDs) 4–7 (CRD4-7), and human DC-SIGN (hDC-SIGN) and of the β-1,3 glucan-binding lectin dectin-1 to map PRR ligands in the fungal cell wall of fungi grown in vitro in rich and minimal media. We show that epitopes of mannan-specific CTL receptors can be clustered or diffuse, superficial or buried in the inner cell wall. We demonstrate that PRR ligands do not correlate well with phylogenetic relationships between fungi, and that Fc-lectin binding discriminated between mannosides expressed on different cell morphologies of the same fungus. We also demonstrate CTL epitope differentiation during different phases of the growth cycle of Candida albicans and that MR and DC-SIGN labelled outer chain N-mannans whilst dectin-2 labelled core N-mannans displayed deeper in the cell wall. These immune receptor maps of fungal walls of in vitro grown cells therefore reveal remarkable spatial, temporal and chemical diversity, indicating that the triggering of immune recognition events originates from multiple physical origins at the fungal cell surface., Author summary Invasive fungal infections remain an important health problem in immunocompromised patients. Immune recognition of fungal pathogens involves binding of specific cell wall components by pathogen recognition receptors (PRRs) and subsequent activation of immune defences. Some cell wall components are conserved among fungal species while other components are species-specific and phenotypically diverse. The fungal cell wall is dynamic and capable of changing its composition and organization when adapting to different growth niches and environmental stresses. Differences in the composition of the cell wall lead to differential immune recognition by the host. Understanding how changes in the cell wall composition affect recognition by PRRs is likely to be of major diagnostic and clinical relevance. Here we address this fundamental question using four soluble immune receptor-probes which recognize mannans and β-glucan in the cell wall. We use this novel methodology to demonstrate that mannan epitopes are differentially distributed in the inner and outer layers of fungal cell wall in a clustered or diffuse manner. Immune reactivity of fungal cell surfaces was not correlated with relatedness of different fungal species, and mannan-detecting receptor-probes discriminated between cell surface mannans generated by the same fungus growing under different conditions. These studies demonstrate that mannan-epitopes on fungal cell surfaces are differentially distributed within and between the cell walls of fungal pathogens.

Published

2020

37. Single human B cell-derived monoclonal anti-Candida antibodies enhance phagocytosis and protect against disseminated candidiasis

Author

Ten Feizi, Lars P. Erwig, Sosthene Essono, Rodrigo Belmonte, Hillary Workman, Lisete M. Silva, Angelina S. Palma, Fiona M. Rudkin, Allan Jensen, Elizabeth M. Johnson, Ingrida Raziunaite, Donna M. MacCallum, Neil A. R. Gow, UCIBIO - Applied Molecular Biosciences Unit, and DQ - Departamento de Química

Subjects

0301 basic medicine, Chemistry(all), medicine.drug_class, Science, General Physics and Astronomy, Physics and Astronomy(all), Monoclonal antibody, General Biochemistry, Genetics and Molecular Biology, Microbiology, law.invention, 03 medical and health sciences, SDG 3 - Good Health and Well-being, law, medicine, lcsh:Science, Candida albicans, B cell, Multidisciplinary, biology, Biochemistry, Genetics and Molecular Biology(all), Fungal genetics, General Chemistry, biology.organism_classification, Disseminated Candidiasis, 3. Good health, 030104 developmental biology, medicine.anatomical_structure, Monoclonal, biology.protein, Recombinant DNA, lcsh:Q, Antibody

Abstract

FCT Investigator IF/00033/2012. Wellcome Trust (086827, 075470, 099215, 099197 and 101873) Wellcome Trust ISSF award (105625), MRC CiC (MC_PC_14114) and MRC Centre for Medical Mycology and University of Aberdeen for funding and a Wellcome Trust Strategic Award (097377). Wellcome Trust grant 099197MA . The high global burden of over one million annual lethal fungal infections reflects a lack of protective vaccines, late diagnosis and inadequate chemotherapy. Here, we have generated a unique set of fully human anti-Candida monoclonal antibodies (mAbs) with diagnostic and therapeutic potential by expressing recombinant antibodies from genes cloned from the B cells of patients suffering from candidiasis. Single class switched memory B cells isolated from donors serum-positive for anti-Candida IgG were differentiated in vitro and screened against recombinant Candida albicans Hyr1 cell wall protein and whole fungal cell wall preparations. Antibody genes from Candida-reactive B cell cultures were cloned and expressed in Expi293F human embryonic kidney cells to generate a panel of human recombinant anti-Candida mAbs that demonstrate morphology-specific, high avidity binding to the cell wall. The species-specific and pan-Candida mAbs generated through this technology display favourable properties for diagnostics, strong opsono-phagocytic activity of macrophages in vitro, and protection in a murine model of disseminated candidiasis. publishersversion published

Published

2018

38. Assignment by Negative-Ion Electrospray Tandem Mass Spectrometry of the Tetrasaccharide Backbones of Monosialylated Glycans Released from Bovine Brain Gangliosides

Author

Ten Feizi, Barbara Mulloy, Wengang Chai, Yibing Zhang, Sandro Sonnino, Maria Grazia Ciampa, and Laura Mauri

Subjects

0301 basic medicine, Technology, Biochemistry & Molecular Biology, Spectrometry, Mass, Electrospray Ionization, Glycans, Electrospray, Glycan, 0306 Physical Chemistry (Incl. Structural), Oligosaccharides, Backbone structures, Proteomics, Tandem mass spectrometry, GLYCOME, Biochemical Research Methods, Analytical Chemistry, 03 medical and health sciences, Glycolipid, Antigen, Polysaccharides, Structural Biology, Gangliosides, Animals, Tetrasaccharide, Spectroscopy, Brain Chemistry, Science & Technology, 030102 biochemistry & molecular biology, biology, Chemistry, Physical, Chemistry, Focus: Mass Spectrometry in Glycobiology and Related Fields: Research Article, Chemistry, Analytical, Glycome, 0304 Medicinal And Biomolecular Chemistry, N-Acetylneuraminic Acid, OLIGOSACCHARIDE MICROARRAYS, carbohydrates (lipids), Sequence assignment, 030104 developmental biology, Carbohydrate Sequence, Biochemistry, Physical Sciences, Bovine brain, biology.protein, Negative-ion ESI-CID-MA/MS, Cattle, Life Sciences & Biomedicine, 0301 Analytical Chemistry

Abstract

Gangliosides, as plasma membrane-associated sialylated glycolipids, are antigenic structures and they serve as ligands for adhesion proteins of pathogens, for toxins of bacteria, and for endogenous proteins of the host. The detectability by carbohydrate-binding proteins of glycan antigens and ligands on glycolipids can be influenced by the differing lipid moieties. To investigate glycan sequences of gangliosides as recognition structures, we have underway a program of work to develop a “gangliome” microarray consisting of isolated natural gangliosides and neoglycolipids (NGLs) derived from glycans released from them, and each linked to the same lipid molecule for arraying and comparative microarray binding analyses. Here, in the first phase of our studies, we describe a strategy for high-sensitivity assignment of the tetrasaccharide backbones and application to identification of eight of monosialylated glycans released from bovine brain gangliosides. This approach is based on negative-ion electrospray mass spectrometry with collision-induced dissociation (ESI-CID-MS/MS) of the desialylated glycans. Using this strategy, we have the data on backbone regions of four minor components among the monosialo-ganglioside-derived glycans; these are of the ganglio-, lacto-, and neolacto-series. Graphical abstract Electronic supplementary material The online version of this article (10.1007/s13361-018-1944-8) contains supplementary material, which is available to authorized users.

Published

2018

39. Binding of CLL Subset 4 B Cell Receptor Immunoglobulins to Viable Human Memory B Lymphocytes Requires a Distinctive IGKV Somatic Mutation

Author

Xiao-Jie Yan, Chao Gao, Yun Liu, Rosa Catera, Nicholas Chiorazzi, Kanti R. Rai, Steven L. Allen, Kostas Stamatopoulos, Charles C. Chu, Ten Feizi, Amanda R. Magli, and Jonathan E. Kolitz

Subjects

0301 basic medicine, Chronic lymphocytic leukemia, B-cell receptor, Naive B cell, Biology, lcsh:Biochemistry, 03 medical and health sciences, Negative selection, Germline mutation, Antigen, hemic and lymphatic diseases, Genetics, medicine, lcsh:QD415-436, Molecular Biology, Genetics (clinical), lcsh:RM1-950, breakpoint cluster region, medicine.disease, Molecular biology, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, Immunology, biology.protein, Molecular Medicine, Antibody, Research Article

Abstract

Amino acid replacement mutations in certain chronic lymphocytic leukemia (CLL) stereotyped B cell receptor (BCR) immunoglobulins (IGs) at defined positions within antigen-binding sites strongly imply antigen selection. Prime examples of this are CLL subset 4 BCR IGs using IGHV4-34/IGHD5-18/IGHJ6 and IGKV2-30/IGKJ2 rearrangements. Conspicuously, and unlike most CLL IGs, subset 4 IGs do not bind apoptotic cells. By testing the (auto)antigenic reactivities of subset 4 IGs toward viable lymphoid-lineage cells and specific autoantigens typically bound by IGHV4-34+ IGs, we found that IGs from both subset 4 and non-subset 4 IGHV4-34-expressing CLL cases bound naïve B cells. However, only subset 4 IGs reacted with memory B cells. Furthermore, subset 4 IGs did not bind DNA nor i or I carbohydrate antigens that are common targets of IGHV4-34-utilizing antibodies in systemic lupus erythematosus and cold agglutinin disease, respectively. Notably, we found that subset 4 IG binding to memory B lymphocytes depends on an aspartic acid at position 66 of FR3 in the rearranged IGKV2-30 gene; this amino acid residue is acquired by somatic mutation. Our findings illustrate the importance of positive and negative selection criteria for structural elements in CLL IGs and suggest that autoantigens driving normal B cells to become subset 4 CLL cells differ from those driving IGHV4-34+ B cells in other diseases.

Published

2017

40. New directions in surface functionalization and characterization: General discussion

Author

Xinkai Qiu, Bart Jan Ravoo, Ten Feizi, W. Bruce Turnbull, Adam B. Braunschweig, Matteo Palma, Helena S. Azevedo, Mia Huang, Ryan C. Chiechi, Laura Hartmann, Yoshiko Miura, Leroy Cronin, Carsten Werner, Stephan Schmidt, Zijian Zheng, Dejian Zhou, Shelley A. Claridge, Yuri Diaz Fernandez, and Molecular Energy Materials

Subjects

Materials science, Polymers, Surface Properties, Bioprinting, Cell Culture Techniques, Immobilized Nucleic Acids, Biocompatible Materials, Hydrogels, Nanotechnology, Microarray Analysis, Nanostructures, Polymerization, Characterization (materials science), Machine Learning, Animals, Humans, Surface modification, Gold, Sulfhydryl Compounds, Physical and Theoretical Chemistry

Published

2019

41. Nanolithography of biointerfaces

Author

Ten Feizi

Subjects

Engineering, business.industry, Surface Properties, Bioprinting, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Glycocalyx, Microarray Analysis, 01 natural sciences, 0104 chemical sciences, law.invention, Nanostructures, Nanolithography, law, Biomimetic Materials, Polysaccharides, Animals, Humans, Physical and Theoretical Chemistry, 0210 nano-technology, business, Faraday cage

Abstract

This article is based on the Concluding remarks made at the Faraday Discussion meeting on Nanolithography of Biointerfaces, held in London, UK, 3–5th July 2019.

Published

2019

42. Mannan detecting C-type lectin receptor probes recognise immune epitopes with diverse chemical, spatial and phylogenetic heterogeneity in fungal cell walls

Author

Wengang Chai, Lisete M. Silva, Neil A. R. Gow, Ten Feizi, Gordon D. Brown, Mark H. T. Stappers, Ingrida Vendele, Yan Liu, Janet A. Willment, and Angelina S. Palma

Subjects

Innate immune system, Immune system, C-type lectin, Pattern recognition receptor, chemical and pharmacologic phenomena, Immune receptor, Biology, Receptor, Epitope, Mannose receptor, Cell biology

Abstract

During the course of fungal infection, pathogen recognition by the innate immune system is critical to initiate efficient protective immune responses. The primary event that triggers immune responses is the binding of Pattern Recognition Receptors (PRRs), which are expressed at the surface of host immune cells, to Pathogen-Associated Molecular Patterns (PAMPs) located predominantly in the fungal cell wall. Most fungi have mannosylated PAMPs in their cell walls and these are recognized by a range of C-type lectin receptors (CTLs). However, the precise spatial distribution of the ligands that induce immune responses within the cell walls of fungi are not well defined. We used recombinant IgG Fc-CTLs fusions of three murine mannan detecting CTLs, including dectin-2, the mannose receptor (MR) carbohydrate recognition domains (CRDs) 4-7 (CRD4-7), and human DC-SIGN (hDC-SIGN) and the β-1,3 glucan-binding lectin dectin-1 to map PRR ligands in the fungal cell wall. We show that epitopes of mannan-specific CTL receptors can be clustered or diffuse, superficial or buried in the inner cell wall. We demonstrate that PRR ligands do not correlate well with phylogenetic relationships between fungi, and that Fc-lectin binding discriminated between mannosides expressed on different cell morphologies of the same fungus. We also demonstrate CTL epitope differentiation during different phases of the growth cycle ofCandida albicansand that MR and DC-SIGN labelled outer chainN-mannans whilst dectin-2 labelled coreN-mannans displayed deeper in the cell wall. These immune receptor maps of fungal walls therefore reveal remarkable spatial, temporal and chemical diversity, indicating that the triggering of immune recognition events originates from multiple physical origins at the fungal cell surface.Author SummaryInvasive fungal infections remain an important health problem in immunocompromised patients. Immune recognition of fungal pathogens involves binding of specific cell wall components by pathogen recognition receptors (PRRs) and subsequent activation of immune defences. Some cell wall components are conserved among fungal species while other components are species-specific and phenotypically diverse. The fungal cell wall is dynamic and capable of changing its composition and organization when adapting to different growth niches and environmental stresses. Differences in the composition of the cell wall lead to differential immune recognition by the host. Understanding how changes in the cell wall composition affect recognition by PRRs is likely to be of major diagnostic and clinical relevance. Here we address this fundamental question using four soluble immune receptor-probes which recognize mannans and β-glucan in the cell wall. We use this novel methodology to demonstrate that mannan epitopes are differentially distributed in the inner and outer layers of fungal cell wall in a clustered or diffuse manner. Immune reactivity of fungal cell surfaces did not correlate with relatedness of different fungal species, and mannan-detecting receptor-probes discriminated between cell surface mannans generated by the same fungus growing under different conditions. These studies demonstrate that mannan-epitopes on fungal cell surfaces are differentially distributed within and between the cell walls of fungal pathogens.

Published

2019

43. Editorial overview: Carbohydrates: O-glycosylation

Author

Ten Feizi and Lance Wells

Subjects

Glycosylation, MEDLINE, Intracellular Space, Computational biology, Biology, chemistry.chemical_compound, chemistry, Structural Biology, Animals, Carbohydrate Metabolism, Humans, Molecular Biology, Introductory Journal Article

Published

2019

44. Sulfated Glycosaminoglycans as Viral Decoy Receptors for Human Adenovirus Type 37

Author

Wengang Chai, Naresh Chandra, Mona Lindström, Fatima Pedrosa Domellöf, Lisete M. Silva, Ten Feizi, Jing-Xia Liu, Niklas Arnberg, Yan Liu, Nian Wu, and Lars Frängsmyr

Subjects

0301 basic medicine, viruses, PATHOGENESIS, lcsh:QR1-502, Medical Biotechnology (with a focus on Cell Biology (including Stem Cell Biology), Molecular Biology, Microbiology, Biochemistry or Biopharmacy), epidemic keratoconjunctivitis, lcsh:Microbiology, Glycosaminoglycan, chemistry.chemical_compound, cellular receptor, BINDING, Decoy receptors, EPITHELIAL DEBRIDEMENT, Receptor, Phylogeny, Glycosaminoglycans, PROTEOGLYCANS, Corneal epithelium, biology, Chemistry, tropism, Epithelium, Corneal, Heparan sulfate, adenovirus, 3. Good health, Cell biology, decoy receptor, Infectious Diseases, medicine.anatomical_structure, INFLUENZA, Receptors, Virus, TYROSINE SULFATION, VIRUS, Life Sciences & Biomedicine, Tyrosine sulfation, Glycan, Virus Attachment, FIBER, Genome, Viral, Article, Viral Proteins, 03 medical and health sciences, antiviral drugs, Virology, medicine, glycosaminoglycan, Humans, SIALIC-ACID, Medicinsk bioteknologi (med inriktning mot cellbiologi (inklusive stamcellsbiologi), molekylärbiologi, mikrobiologi, biokemi eller biofarmaci), Science & Technology, 030102 biochemistry & molecular biology, Adenoviruses, Human, Microarray Analysis, eye diseases, Sialic acid, Viral Tropism, 030104 developmental biology, A549 Cells, DNA, Viral, biology.protein, Heparitin Sulfate

Abstract

Glycans on plasma membranes and in secretions play important roles in infection by many viruses. Species D human adenovirus type 37 (HAdV-D37) is a major cause of epidemic keratoconjunctivitis (EKC) and infects target cells by interacting with sialic acid (SA)-containing glycans via the fiber knob domain of the viral fiber protein. HAdV-D37 also interacts with sulfated glycosaminoglycans (GAGs), but the outcome of this interaction remains unknown. Here, we investigated the molecular requirements of HAdV-D37 fiber knob:GAG interactions using a GAG microarray and demonstrated that fiber knob interacts with a broad range of sulfated GAGs. These interactions were corroborated in cell-based assays and by surface plasmon resonance analysis. Removal of heparan sulfate (HS) and sulfate groups from human corneal epithelial (HCE) cells by heparinase III and sodium chlorate treatments, respectively, reduced HAdV-D37 binding to cells. Remarkably, removal of HS by heparinase III enhanced the virus infection. Our results suggest that interaction of HAdV-D37 with sulfated GAGs in secretions and on plasma membranes prevents/delays the virus binding to SA-containing receptors and inhibits subsequent infection. We also found abundant HS in the basement membrane of the human corneal epithelium, which may act as a barrier to sub-epithelial infection. Collectively, our findings provide novel insights into the role of GAGs as viral decoy receptors and highlight the therapeutic potential of GAGs and/or GAG-mimetics in HAdV-D37 infection.

Published

2019

45. Author Correction: Single human B cell-derived monoclonal anti-Candida antibodies enhance phagocytosis and protect against disseminated candidiasis

Author

Allan Jensen, Ten Feizi, Neil A. R. Gow, Sosthene Essono, Ingrida Raziunaite, Fiona M. Rudkin, Lisete M. Silva, Lars Erwig, Rodrigo Belmonte, Donna M. MacCallum, H. Workman, Elizabeth M. Johnson, and Angelina S. Palma

Subjects

Phagocytosis, Science, General Physics and Astronomy, Human b cell, General Biochemistry, Genetics and Molecular Biology, GeneralLiterature_MISCELLANEOUS, Article, Mice, Candida albicans, Medicine, Animals, Humans, lcsh:Science, Author Correction, Antibodies, Fungal, Candida, B-Lymphocytes, Mice, Inbred BALB C, Multidisciplinary, biology, business.industry, Candidiasis, Antibodies, Monoclonal, General Chemistry, Disseminated Candidiasis, Immunology, Monoclonal, biology.protein, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, lcsh:Q, Female, Antibody, business

Abstract

The high global burden of over one million annual lethal fungal infections reflects a lack of protective vaccines, late diagnosis and inadequate chemotherapy. Here, we have generated a unique set of fully human anti-Candida monoclonal antibodies (mAbs) with diagnostic and therapeutic potential by expressing recombinant antibodies from genes cloned from the B cells of patients suffering from candidiasis. Single class switched memory B cells isolated from donors serum-positive for anti-Candida IgG were differentiated in vitro and screened against recombinant Candida albicans Hyr1 cell wall protein and whole fungal cell wall preparations. Antibody genes from Candida-reactive B cell cultures were cloned and expressed in Expi293F human embryonic kidney cells to generate a panel of human recombinant anti-Candida mAbs that demonstrate morphology-specific, high avidity binding to the cell wall. The species-specific and pan-Candida mAbs generated through this technology display favourable properties for diagnostics, strong opsono-phagocytic activity of macrophages in vitro, and protection in a murine model of disseminated candidiasis., Late diagnosis and ineffective treatment of fungal infections lead to high mortality. Here, Rudkin et al. generate anti-Candida human monoclonal antibodies with diagnostic and therapeutic potential, by expressing recombinant antibodies from genes cloned from B cells of patients suffering candidiasis.

Published

2019

46. The minimum information required for a glycomics experiment (MIRAGE) project: sample preparation guidelines for reliable reporting of glycomics datasets

Author

James C. Paulson, Nicolle H. Packer, Joseph Zaia, Michael Tiemeyer, Kay-Hooi Khoo, Lance Wells, Carsten Kettner, Ten Feizi, Yan Liu, Stuart M. Haslam, Weston B. Struwe, Milos V. Novotny, Matthew Campbell, Rene Ranzinger, Kiyoko F. Aoki-Kinoshita, Catherine E. Costello, Sanjay Agravat, Anne Dell, Ryan McBride, David F. Smith, Niclas G. Karlsson, William S. York, Daniel Kolarich, Pauline M. Rudd, Erdmann Rapp, and Biotechnology and Biological Sciences Research Council (BBSRC)

Subjects

0301 basic medicine, Biochemistry & Molecular Biology, Computer science, Group method of data handling, Datasets as Topic, Guidelines as Topic, Nanotechnology, Sample (statistics), Biochemistry, Mass Spectrometry, Specimen Handling, Glycomics, 03 medical and health sciences, glycobiology, Polysaccharides, MIRAGE, Sample preparation, Data reporting, Science & Technology, sample preparation, 030102 biochemistry & molecular biology, Chromatography liquid, 11 Medical And Health Sciences, 06 Biological Sciences, Data science, 030104 developmental biology, Glyco-Forum, Life Sciences & Biomedicine, Chromatography, Liquid

Abstract

The minimum information required for a glycomics experiment (MIRAGE) project was established in 2011 to provide guidelines to aid in data reporting from all types of experiments in glycomics research including mass spectrometry (MS), liquid chromatography, glycan arrays, data handling and sample preparation. MIRAGE is a concerted effort of the wider glycomics community that considers the adaptation of reporting guidelines as an important step towards critical evaluation and dissemination of datasets as well as broadening of experimental techniques worldwide. The MIRAGE Commission published reporting guidelines for MS data and here we outline guidelines for sample preparation. The sample preparation guidelines include all aspects of sample generation, purification and modification from biological and/or synthetic carbohydrate material. The application of MIRAGE sample preparation guidelines will lead to improved recording of experimental protocols and reporting of understandable and reproducible glycomics datasets.

Published

2016

47. Effects of egg-adaptation on receptor-binding and antigenic properties of recent influenza A (H3N2) vaccine viruses

Author

Lauren Parker, John W. McCauley, Karen J Cross, Stephen R. Martin, Ten Feizi, Yan Liu, Stephen A. Wharton, Yipu Lin, and Rodney S. Daniels

Subjects

0301 basic medicine, Antigenicity, Virus Cultivation, viruses, Adaptation, Biological, Virus Attachment, Hemagglutinin Glycoproteins, Influenza Virus, Biology, Antibodies, Viral, medicine.disease_cause, H5N1 genetic structure, Negative-strand RNA Viruses, Virus, Antigenic drift, Microbiology, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Virology, Influenza A virus, medicine, Animals, Humans, Avidity, 030212 general & internal medicine, Ovum, Animal, Influenza A Virus, H3N2 Subtype, Ferrets, Hemagglutination Inhibition Tests, Standard, Reverse genetics, 3. Good health, Sialic acid, 030104 developmental biology, Amino Acid Substitution, chemistry, Influenza Vaccines, Sialic Acids, Chickens

Abstract

Influenza A virus (subtype H3N2) causes seasonal human influenza and is included as a component of influenza vaccines. The majority of vaccine viruses are isolated and propagated in eggs, which commonly results in amino acid substitutions in the haemagglutinin (HA) glycoprotein. These substitutions can affect virus receptor-binding and alter virus antigenicity, thereby, obfuscating the choice of egg-propagated viruses for development into candidate vaccine viruses. To evaluate the effects of egg-adaptive substitutions seen in H3N2 vaccine viruses on sialic acid receptor-binding, we carried out quantitative measurement of virus receptor-binding using surface biolayer interferometry with haemagglutination inhibition (HI) assays to correlate changes in receptor avidity with antigenic properties. Included in these studies was a panel of H3N2 viruses generated by reverse genetics containing substitutions seen in recent egg-propagated vaccine viruses and corresponding cell culture-propagated wild-type viruses. These assays provide a quantitative approach to investigating the importance of individual amino acid substitutions in influenza receptor-binding. Results show that viruses with egg-adaptive HA substitutions R156Q, S219Y, and I226N, have increased binding avidity to α2,3-linked receptor-analogues and decreased binding avidity to α2,6-linked receptor-analogues. No measurable binding was detected for the viruses with amino acid substitution combination 156Q+219Y and receptor-binding increased in viruses where egg-adaptation mutations were introduced into cell culture-propagated virus. Substitutions at positions 156 and 190 appeared to be primarily responsible for low reactivity in HI assays with post-infection ferret antisera raised against 2012–2013 season H3N2 viruses. Egg-adaptive substitutions at position 186 caused substantial differences in binding avidity with an insignificant effect on antigenicity.

Published

2016

48. Novel sulfated ligands for the cell adhesion molecule E-selection revealed by the neoglycolipid technology among O-linked oligosaccharides on an ovarian cystadenoma glycoprotein

Author

Yuen Chun-Ting, Lawson, Alexander M., Wengang Chai, Larkin, Margot, Stoll, Mark S., Stuart, Ashley C., Sullivan, Francis X., Ahern, Tim J., and Ten Feizi

Subjects

Cell adhesion molecules -- Research, Ligands (Biochemistry) -- Research, Glycoproteins -- Research, Biological sciences, Chemistry

Abstract

Novel sulfated oligosaccharide ligands for E-selectin, the inducible adhesion protein involved in tumor cell adhesion and metastasis, from oligosaccharides on an ovarian cystadenoma glycoprotein was identified. Neoglycolipid technology was applied to acidic oligosaccharide products of mild alkaline beta-elimination. The experiments established that 3-sulfated fucooligosaccharides of the blood group Lewisa antigen and Lewisx antigen/stage-specific embryonic antigen-1 type are ligands for E-selectin.

Published

1992

49. The neoglycolipid (NGL) technology-based microarrays and future prospects

Author

Zhen Li and Ten Feizi

Subjects

0301 basic medicine, Glycan, Microarray, Biophysics, Oligosaccharides, Computational biology, Ligands, Biochemistry, 03 medical and health sciences, Antigen, Structural Biology, Genetics, Animals, Humans, Lectins, C-Type, Molecular Biology, Glucans, Glycomics, biology, Effector, Chemistry, Cell Biology, Microarray Analysis, Glycome, Bacterial adhesin, 030104 developmental biology, biology.protein, Mucin glycoprotein, DNA microarray, Glycolipids

Abstract

The neoglycolipid (NGL) technology is the basis of a state-of-the-art oligosaccharide microarray system, which we offer for screening analyses to the broad scientific community. We review here the sequential development of the technology and its power in pinpointing and isolating naturally occurring ligands for glycan-binding proteins (GBPs) within glycan populations. We highlight our Designer Array approach and Beam Search Array approach for generating natural glycome arrays to identify novel ligands of biological relevance. These two microarray approaches have been applied for assignments of ligands or antigens on glucan polysaccharides for effector proteins of the immune system (Dectin-1, DC-SIGN and DC-SIGNR) and carbohydrate-binding modules (CBMs) on bacterial hydrolases. We also discuss here the more recent applications to elucidate the structure of a prostate cancer- associated antigen F77 and identify ligands for adhesins of two rotaviruses, P[10] and P[19], expressed on an epithelial mucin glycoprotein.

Published

2018

50. Insights Into Glucan Polysaccharide Recognition Using Glucooligosaccharide Microarrays With Oxime-Linked Neoglycolipid Probes

Author

Yan, Liu, Angelina S, Palma, Ten, Feizi, and Wengang, Chai

Subjects

Spectrometry, Mass, Electrospray Ionization, Bacterial Proteins, Glycoside Hydrolases, Tandem Mass Spectrometry, Oximes, Oligosaccharides, Microarray Analysis, Glucans

Abstract

Glucans are polysaccharides of increasing biomedical interest because of their involvement in mechanisms of pathogen recognition, modulation of the immune system and anticancer, and health-promoting activities. Most of these biological activities occur through specific interactions with glucan-recognizing proteins. However, detailed molecular studies of glucan recognition remain a challenge mainly due to the inherent sequence heterogeneity and polydispersity of glucan polysaccharides, and associated difficulties in their purification and sequence characterization. It is thus ideal to have a series of sequence-defined glucooligosaccharides to represent the sequence diversity of glucan polysaccharides and to apply these to gain insight into glucan recognition processes. In this chapter, we describe the the methods for developing of oligosaccharide microarrays derived from a collection of glucans with different linkages based on the neoglycolipid (NGL) microarray system. The microscale oxime-ligation method has provided access in microarrays to over 150 sequence-defined glucooligosaccharides with different chain lengths, linkages, and branching patterns. We focus on the essential steps in the preparation of NGL-based glucooligosaccharide microarrays, which include (1) the depolymerization and purification methods to obtain oligosaccharide fractions of defined chain lengths; (2) a mass spectrometry-based method for linkage and sequence analysis of glucooligosaccharides; (3) improved procedures for preparation of oxime-linked NGLs from glucooligosaccharides for construction of microarrays; and (4) analyses of the recognition of these oligosaccharide sequences by various glucan-recognizing proteins: monoclonal antibodies, other proteins of the immune system such as Dectin-1 and DC-SIGN, and carbohydrate-binding modules of bacterial glycoside hydrolases.

Published

2018