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2. Site-specific characterization of SARS-CoV-2 spike glycoprotein receptor-binding domain.

Author

Antonopoulos, Aristotelis, Broome, Steven, Sharov, Victor, Ziegenfuss, Christopher, Easton, Richard L, Panico, Maria, Dell, Anne, Morris, Howard R, and Haslam, Stuart M

Subjects
SARS-CoV-2, COVID-19, CELL membranes, ANGIOTENSIN I, GLYCOSYLATION, GLYCANS
Abstract

The novel coronavirus SARS-CoV-2, the infective agent causing COVID-19, is having a global impact both in terms of human disease as well as socially and economically. Its heavily glycosylated spike glycoprotein is fundamental for the infection process, via its receptor-binding domains interaction with the glycoprotein angiotensin-converting enzyme 2 on human cell surfaces. We therefore utilized an integrated glycomic and glycoproteomic analytical strategy to characterize both N- and O- glycan site-specific glycosylation within the receptor-binding domain. We demonstrate the presence of complex-type N-glycans with unusual fucosylated LacdiNAc at both sites N331 and N343 and a single site of O-glycosylation on T323. [ABSTRACT FROM AUTHOR]

Published
2021
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3. Gp120 on HIV-1 Virions Lacks O-Linked Carbohydrate.

Author

Stansell, Elizabeth, Panico, Maria, Canis, Kevin, Pang, Poh-Choo, Bouché, Laura, Binet, Daniel, O'Connor, Michael-John, Chertova, Elena, Bess, Julian, Lifson, Jeffrey D., Haslam, Stuart M., Morris, Howard R., Desrosiers, Ronald C., and Dell, Anne

Subjects
HIV-1 glycoprotein 120, VIRION, CARBOHYDRATES, THREONINE, POST-translational modification, RECOMBINANT proteins
Abstract

As HIV-1-encoded envelope protein traverses the secretory pathway, it may be modified with N- and O-linked carbohydrate. When the gp120s of HIV-1 NL4-3, HIV-1 YU2, HIV-1 Bal, HIV-1 JRFL, and HIV-1 JRCSF were expressed as secreted proteins, the threonine at consensus position 499 was found to be O-glycosylated. For SIVmac239, the corresponding threonine was also glycosylated when gp120 was recombinantly expressed. Similarly-positioned, highly-conserved threonines in the influenza A virus H1N1 HA1 and H5N1 HA1 envelope proteins were also found to carry O-glycans when expressed as secreted proteins. In all cases, the threonines were modified predominantly with disialylated core 1 glycans, together with related core 1 and core 2 structures. Secreted HIV-1 gp140 was modified to a lesser extent with mainly monosialylated core 1 O-glycans, suggesting that the ectodomain of the gp41 transmembrane component may limit the accessibility of Thr499 to glycosyltransferases. In striking contrast to these findings, gp120 on purified virions of HIV-1 Bal and SIV CP-MAC lacked any detectable O-glycosylation of the C-terminal threonine. Our results indicate the absence of O-linked carbohydrates on Thr499 as it exists on the surface of virions and suggest caution in the interpretation of analyses of post-translational modifications that utilize recombinant forms of envelope protein. [ABSTRACT FROM AUTHOR]

Published
2015
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4. GlycomicsGlycomics and Mass SpectrometryMass spectrometry (MS).

Author

Dell, Anne, Jang-Lee, Jihye, Pang, Poh-Choo, Parry, Simon, Sutton-Smith, Mark, Tissot, Berangere, Morris, Howard R., Panico, Maria, and Haslam, Stuart M.

Abstract

There is an increasing body of evidence indicating that glycans are implicated in numerous biological processes such as cell–cell interactions, intracellular signaling, and immune response. GlycomicsGlycomics emerges from the necessity to understand the mechanisms underlying the interactions responsible for these activities. The term glycomics is used to describe experimental approaches to studying the structure and function of the glycomesGlycomes of fluids, cells, tissues, organs etc. Glycomics embraces a variety of technologies amongst which mass spectrometry (MS) plays a pivotal role because it is the method of choice for defining the primary structures of glycopolymers. This chapter provides an insight into MSMS –based structural strategies that are best suited to studying complex glycomes. [ABSTRACT FROM AUTHOR]

Published
2008
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5. Mapping the N-glycome of human von Willebrand factor.

Author

CANIS, Kevin, MCKINNON, Thomas A. J., NOWAK, Agata, HASLAM, Stuart M., PANICO, Maria, MORRIS, Howard R., LAFFAN, Mike A., and DELL, Anne

Subjects
VON Willebrand factor, CARRIER proteins, BLOOD coagulants, GENE expression, GLYCOSYLATION, BINDING sites
Abstract

vWF (vonWillebrand factor) is a key component for maintenance of normal haemostasis, acting as the carrier protein of the coagulant Factor VIII and mediating platelet adhesion at sites of vascular injury. There is ample evidence that vWFglycan moieties are crucial determinants of its expression and function. Of particular clinical interest, ABH antigens influence vWF plasma levels according to the blood group of individuals, although the molecular mechanism underlying this phenomenon remains incompletely understood. The present paper reports analyses of the human plasma vWF N-glycan population using advanced MS. Glycomics analyses revealed approximately 100 distinct N-glycan compositions and identified a variety of structural features, including lactosaminic extensions, ABH antigens and sulfated antennae, as well as bisecting and terminal GlcNAc residues. We estimate that some 300 N-glycan structures are carried by human vWF. Glycoproteomics analyses mapped ten of the consensus sites known to carry N-glycans. Glycan populations were found to be distinct, although many structural features were shared across all sites. Notably, the H antigen is not restricted to particular N-glycosylation sites. Also, the Asn2635 site, previously designated as unoccupied, was found to be highly glycosylated. The delineation of such varied glycan populations in conjunction with current models explaining vWF activity will facilitate research aimed at providing a better understanding of the influence of glycosylation on vWF function. [ABSTRACT FROM AUTHOR]

Published
2012
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6. Glycoproteomic characterization of recombinant mouse α-dystroglycan.

Author

Harrison, Rebecca, Hitchen, Paul G, Panico, Maria, Morris, Howard R, Mekhaiel, David, Pleass, Richard J, Dell, Anne, Hewitt, Jane E, and Haslam, Stuart M

Subjects
PROTEOMICS, LABORATORY mice, DYSTROGLYCAN, DYSTROPHIN, GLYCOPROTEINS, GLYCOSYLATION, GALACTOSAMINE, MASS spectrometry
Abstract

α-Dystroglycan (DG) is a key component of the dystrophin–glycoprotein complex. Aberrant glycosylation of the protein has been linked to various forms of congenital muscular dystrophy. Unusually α-DG has previously been demonstrated to be modified with both O-N-acetylgalactosamine and O-mannose initiated glycans. In the present study, Fc-tagged recombinant mouse α-DG was expressed and purified from human embryonic kidney 293T cells. α-DG glycopeptides were characterized by glycoproteomic strategies using both nano-liquid chromatography matrix-assisted laser desorption ionization and electrospray tandem mass spectrometry. A total of 14 different peptide sequences and 38 glycopeptides were identified which displayed heterogeneous O-glycosylation. These data provide new insights into the complex domain-specific O-glycosylation of α-DG. [ABSTRACT FROM PUBLISHER]

Published
2012
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7. Sulfoquinovose synthase - an important enzyme in the N-glycosylation pathway of Sulfolobus acidocaldarius.

Author

Meyer, Benjamin H., Zolghadr, Behnam, Peyfoon, Elham, Pabst, Martin, Panico, Maria, Morris, Howard R., Haslam, Stuart M., Messner, Paul, Schäffer, Christina, Dell, Anne, and Albers, Sonja-Verena

Subjects
GLYCOPROTEINS, GLYCANS, BIOCHEMICAL engineering, GLYCOSYLATION, OLIGOSACCHARIDES
Abstract

Summary Recently, the Surface (S)-layer glycoprotein of the thermoacidophilic crenarchaeote Sulfolobus acidocaldarius was found to be N-glycosylated with a heterogeneous family of glycans, with the largest having a composition Glc1Man2GlcNAc2 plus 6-sulfoquinovose. However, genetic analyses of genes involved in the N-glycosylation process in Crenarchaeota were missing so far. In this study we identify a gene cluster involved in the biosynthesis of sulfoquinovose and important for the assembly of the S-layer N-glycans. A successful markerless in-frame deletion of agl3 resulted in a decreased molecular mass of the S-layer glycoprotein SlaA and the flagellin FlaB, indicating a change in the N-glycan composition. Analyses with nanoLC ES-MS/MS confirmed the presence of only a reduced trisaccharide structure composed of Man1GlcNAc2, missing the sulfoquinovose, a mannose and glucose. Biochemical studies of the recombinant Agl3 confirmed the proposed function as a UDP-sulfoquinovose synthase. Furthermore, S. acidocaldarius cells lacking agl3 had a significantly lower growth rate at elevated salt concentrations compared with the background strain, underlining the importance of the N-glycosylation to maintain an intact and stable cell envelope, to enable the survival of S. acidocaldarius in its extreme environment. [ABSTRACT FROM AUTHOR]

Published
2011
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8. G6PC3 mutations are associated with a major defect of glycosylation: a novel mechanism for neutrophil dysfunction.

Author

Hayee, Bu'Hussain, Antonopoulos, Aristotelis, Murphy, Emma J, Rahman, Farooq Z, Sewell, Gavin, Smith, Bradley N, McCartney, Sara, Furman, Mark, Hall, Georgina, Bloom, Stuart L, Haslam, Stuart M, Morris, Howard R, Boztug, Kaan, Klein, Christoph, Winchester, Bryan, Pick, Edgar, Linch, David C, Gale, Rosemary E, Smith, Andrew M, and Dell, Anne

Subjects
GENETIC mutation, GLYCOSYLATION, NEUTROPHILS, GLYCOGEN storage disease, GLUCOSE-6-phosphatase, ENDOPLASMIC reticulum, HYDROLYSIS
Abstract

Glucose-6-phosphatase, an enzyme localized in the endoplasmic reticulum (ER), catalyzes the hydrolysis of glucose-6-phosphate (G6P) to glucose and inorganic phosphate. In humans, there are three differentially expressed glucose-6-phosphatase catabolic genes (G6PC1–3). Recently, it has been shown that mutations in the G6PC3 gene result in a syndrome associating congenital neutropenia and various organ malformations. The enzymatic function of G6PC3 is dependent on G6P transport into the ER, mediated by G6P translocase (G6PT). Mutations in the gene encoding G6PT result in glycogen storage disease type-1b (GSD-1b). Interestingly, GSD-1b patients exhibit a similar neutrophil dysfunction to that observed in G6PC3-deficient patients. To better understand the causes of neutrophil dysfunction in both diseases, we have studied the neutrophil nicotinamide adenine dinucleotide phosphate (NADPH) oxidase of patients with G6PC3 and G6PT syndromes. Unexpectedly, sodium dodecyl sulfate–polyacrylamide gel electrophoresis experiments indicated hypo-glycosylation of gp91phox, the electron-transporting component of the NADPH oxidase, in all of these patients. Rigorous mass spectrometric glycomic profiling showed that most of the complex-type antennae which characterize the neutrophil N-glycome of healthy individuals were severely truncated in the patients' neutrophils. A comparable truncation of the core 2 antenna of the O-glycans was also observed. This aberrant neutrophil glycosylation is predicted to have profound effects on the neutrophil function and merit designation of both syndromes as a new class of congenital disorders of glycosylation. [ABSTRACT FROM PUBLISHER]

Published
2011
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9. Glycosylation Failure Extends to Glycoproteins in Gestational Diabetes Mellitus.

Author

Cheuk-Lun Lee, Chill, Philip C. N., Poh-Choo Pang, Chu, Ivan K., Kai-Fai Lee, Koistinen, Riitta, Koistinen, Hannu, Seppälä, Markku, Morris, Howard R., Tissot, Bérangère, Panico, Maria, Dell, Anne, and Yeung, William S. B.

Subjects
GLYCOSYLATION, GLYCOPROTEINS, GESTATIONAL diabetes, KILLER cells, PREGNANCY complications
Abstract

OBJECTIVE--Gestational diabetes mellitus (GDM) is a common metabolic disorder of pregnancy. Patients with GDM are at risk for high fetal mortality and gestational complications associated with reduced immune tolerance and abnormal carbohydrate metabolism. Glycodelin-A (GdA) is an abundant decidual glycoprotein with glycosylation-dependent immunomodulatory activities. We hypothesized that aberrant carbohydrate metabolism in GDM was associated with changes in glycosylation of GdA, leading to defective immunomodulatory activities. RESEARCH DESIGN AND METHODS--GdA in the amniotic fluid from women with normal (NGdA) and GDM (DGdA) pregnancies was purified by affinity chromatography. Structural analysis of protein glycosylation was preformed by lectin-binding assay and mass spectrometry. Cytotoxicity, cell death, cytokine secretion, and GdA binding of the GdA-treated lymphocytes and natural killer (NK) cells were determined. The sialidase activity in the placental tissue from normal and GDM patients was measured. RESULTS--GDM affected the glycosylation but not the protein core of GdA. Specifically, DGdA had a lower abundance of α2-6-sialylated and high-mannose glycans and a higher abundance of glycans with Sda (NeuAcα2-3[GalNAcβ1-4]Gal) epitopes compared with NGdA. DGdA had reduced immuosuppressive activities in terms of cytotoxicity on lymphocytes, inhibitory activities on interleukin (IL)-2 secretion by lymphocytes, stimulatory activities on IL-6 secretion by NK cells, and binding to these cells. Desialylation abolished the immunomodulation and binding of NGdA. Placental sialidase activity was increased in GDM patients, which may account for the reduced sialic acid content of DGdA. CONCLUSIONS--Taken together, this study provides the first direct evidence for altered enzymatic glycosylation and impaired bioactivity of GdA in GDM patients. [ABSTRACT FROM AUTHOR]

Published
2011
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10. N-Glycans on the link domain of human HARE/Stabilin-2 are needed for hyaluronan binding to purified ecto-domain, but not for cellular endocytosis of hyaluronan.

Author

Harris, Edward N., Parry, Simon, Sutton-Smith, Mark, Pandey, Madhu S., Panico, Maria, Morris, Howard R., Haslam, Stuart M., Dell, Anne, and Weigel, Paul H.

Subjects
HYALURONIC acid, ENDOCYTOSIS, HEPARIN, CHONDROITIN, PROTEIN binding
Abstract

The hyaluronic acid receptor for endocytosis (HARE)/Stabilin-2 is the primary systemic scavenger receptor for 13 ligands including hyaluronan (HA), heparin and chondroitin sulfates. Most ligand-binding sites are within the 190 kDa isoform, which contains ∼25 kDa of N-glycans and is the C-terminal half of the full-length 315 kDa HARE. Glycoproteomic analyses of purified recombinant human 190-HARE ecto-domain identified a diverse population of glycans at 10 of 17 consensus sites. The most diversity (and the only sialylated structures) occurred at N2280, within the HA-binding Link domain. To determine if these N-glycans are required for HA binding, we created human Flp-In 293 cell lines expressing membrane-bound or soluble ecto-domain variants of 190-HARE(N2280A). Membrane-bound HARE lacking Link domain N-glycans mediated rapid HA endocytosis, but purified 190-HARE(N2280A) ecto-domain showed little or no HA binding in ELISA-like, HA-HARE pull-down assays or by surface plasmon resonance analysis (which detected very high apparent affinity for 190-HARE ecto-domain binding to HA; Kd = 5.2 nM). The results indicate that Link domain N-glycans stabilize interactions that facilitate HA binding to HARE. [ABSTRACT FROM PUBLISHER]

Published
2010
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11. Endothelial Galectin-1 Binds to Specific Glycans on Nipah Virus Fusion Protein and Inhibits Maturation, Mobility, and Function to Block Syncytia Formation.

Author

Garner, Omai B., Aguilar, Hector C., Fulcher, Jennifer A., Levroney, Ernest L., Harrison, Rebecca, Wright, Lacey, Robinson, Lindsey R., Aspericueta, Vanessa, Panico, Maria, Haslam, Stuart M., Morris, Howard R., Dell, Anne, Lee, Benhur, and Baum, Linda G.

Subjects
NIPAH virus, ENDOTHELIAL growth factors, GLYCOPROTEINS, VIRUS diseases, CELL membranes, PATHOLOGICAL physiology
Abstract

Nipah virus targets human endothelial cells via NiV-F and NiV-G envelope glycoproteins, resulting in endothelial syncytia formation and vascular compromise. Endothelial cells respond to viral infection by releasing innate immune effectors, including galectins, which are secreted proteins that bind to specific glycan ligands on cell surface glycoproteins. We demonstrate that galectin-1 reduces NiV-F mediated fusion of endothelial cells, and that endogenous galectin-1 in endothelial cells is sufficient to inhibit syncytia formation. Galectin-1 regulates NiV-F mediated cell fusion at three distinct points, including retarding maturation of nascent NiV-F, reducing NiV-F lateral mobility on the plasma membrane, and directly inhibiting the conformational change in NiV-F required for triggering fusion. Characterization of the NiV-F N-glycome showed that the critical site for galectin-1 inhibition is rich in glycan structures known to bind galectin-1. These studies identify a unique set of mechanisms for regulating pathophysiology of NiV infection at the level of the target cell. [ABSTRACT FROM AUTHOR]

Published
2010
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12. Physiological and glycomic characterization of N-acetylglucosaminyltransferase-IVa and -IVb double deficient mice.

Author

Takamatsu, Shinji, Antonopoulos, Aristotelis, Ohtsubo, Kazuaki, Ditto, David, Chiba, Yasunori, Le, Dzung T., Morris, Howard R., Haslam, Stuart M., Dell, Anne, Marth, Jamey D., and Taniguchi, Naoyuki

Subjects
ISOENZYMES, LECTINS, PROTEIN binding, EPITOPES, GENE expression
Abstract

N-Acetylglucosaminyltransferase-IV (GnT-IV) has two isoenzymes, GnT-IVa and GnT-IVb, which initiate the GlcNAcβ1-4 branch synthesis on the Manα1-3 arm of the N-glycan core thereby increasing N-glycan branch complexity and conferring endogenous lectin binding epitopes. To elucidate the physiological significance of GnT-IV, we engineered and characterized GnT-IVb-deficient mice and further generated GnT-IVa/-IVb double deficient mice. In wild-type mice, GnT-IVa expression is restricted to gastrointestinal tissues, whereas GnT-IVb is broadly expressed among organs. GnT-IVb deficiency induced aberrant GnT-IVa expression corresponding to the GnT-IVb distribution pattern that might be attributed to increased Ets-1, which conceivably activates the Mgat4a promoter, and thereafter preserved apparent GnT-IV activity. The compensative GnT-IVa expression might contribute to amelioration of the GnT-IVb-deficient phenotype. GnT-IVb deficiency showed mild phenotypic alterations in hematopoietic cell populations and hemostasis. GnT-IVa/-IVb double deficiency completely abolished GnT-IV activity that resulted in the disappearance of the GlcNAcβ1-4 branch on the Manα1-3 arm that was confirmed by MALDI-TOF MS and GC-MS linkage analyses. Comprehensive glycomic analyses revealed that the abundance of terminal moieties was preserved in GnT-IVa/-IVb double deficiency that was due to the elevated expression of glycosyltransferases regarding synthesis of terminal moieties. Thereby, this may maintain the expression of glycan ligands for endogenous lectins and prevent cellular dysfunctions. The fact that the phenotype of GnT-IVa/-IVb double deficiency largely overlapped that of GnT-IVa single deficiency can be attributed to the induced glycomic compensation. This is the first report that mammalian organs have highly organized glycomic compensation systems to preserve N-glycan branch complexity. [ABSTRACT FROM PUBLISHER]

Published
2010
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13. Transglutaminase-Mediated Semen Coagulation Controls Sperm Storage in the Malaria Mosquito.

Author

Rogers, David W., Baldini, Francesco, Battaglia, Francesca, Panico, Maria, Dell, Anne, Morris, Howard R., and Catteruccia, Flaminia

Subjects
TRANSGLUTAMINASES, MALARIA, ANOPHELES gambiae, SEMINAL proteins, PROTEIN crosslinking, ARTIFICIAL insemination, MOSQUITO control
Abstract

Insect seminal fluid proteins are powerful modulators of many aspects of female physiology and behaviour including longevity, egg production, sperm storage, and remating. The crucial role of these proteins in reproduction makes them promising targets for developing tools aimed at reducing the population sizes of vectors of disease. In the malaria mosquito Anopheles gambiae, seminal secretions produced by the male accessory glands (MAGs) are transferred to females in the form of a coagulated mass called the mating plug. The potential of seminal fluid proteins as tools for mosquito control demands that we improve our limited understanding of the composition and function of the plug. Here, we show that the plug is a key determinant of An. gambiae reproductive success. We uncover the composition of the plug and demonstrate it is formed through the cross-linking of seminal proteins mediated by a MAG-specific transglutaminase (TGase), a mechanism remarkably similar to mammalian semen coagulation. Interfering with TGase expression in males inhibits plug formation and transfer, and prevents females from storing sperm with obvious consequences for fertility. Moreover, we show that the MAG-specific TGase is restricted to the anopheline lineage, where it functions to promote sperm storage rather than as a mechanical barrier to re-insemination. Taken together, these data represent a major advance in our understanding of the factors shaping Anopheles reproductive biology. [ABSTRACT FROM AUTHOR]

Published
2009
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14. Glycoproteomics: Past, present and future

Author

Tissot, Bérangère, North, Simon J., Ceroni, Alessio, Pang, Poh-Choo, Panico, Maria, Rosati, Floriana, Capone, Antonietta, Haslam, Stuart M., Dell, Anne, and Morris, Howard R.

Subjects
PROTEOMICS, GLYCOPROTEINS, GLYCOSYLATION, MASS spectrometry, NUCLEOTIDE sequence, GAS chromatography, GALACTOSE
Abstract

Abstract: This invited paper reviews the study of protein glycosylation, commonly known as glycoproteomics, beginning with the origins of the subject area in the early 1970s shortly after mass spectrometry was first applied to protein sequencing. We go on to describe current analytical approaches to glycoproteomic analyses, with exemplar projects presented in the form of the complex story of human glycodelin and the characterisation of blood group H eptitopes on the O-glycans of gp273 from Unio elongatulus. Finally, we present an update on the latest progress in the field of automated and semi-automated interpretation and annotation of these data in the form of GlycoWorkBench, a powerful informatics tool that provides valuable assistance in unravelling the complexities of glycoproteomic studies. [Copyright &y& Elsevier]

Published
2009
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15. The Lan3-2 glycoepitope of Hirudo medicinalis consists of β-(1,4)-linked mannopyranose.

Author

Linjuan Huang, Hollingsworth, Rawle I., Haslam, Stuart M., Morris, Howard R., Dell, Anne, and Zipser, Birgit

Subjects
HIRUDO medicinalis, EPITOPES, CHEMICAL structure, OLIGOSACCHARIDES, GAS chromatography, POLYSACCHARIDES
Abstract

While glycosyltransferases are restrictively expressed in invertebrate model organisms, little is known of their glycan end products. One such restrictively expressed glycoepitope was localized to sensory and epithelial cells of leech and Caenorhabditis elegans using the Lan3-2 monoclonal antibody. A biological function for the neural Lan3-2 epitope was previously determined in the leech. Here we report on the chemical structure of this mannosidic epitope harvested from whole Hirudo medicinalis. Crude glycans were liberated from glycoproteins by hydrazinolysis. Re- N-acetylated glycans were subjected to immunoaffinity purification. The affinity-purified glycans were fractioned by size chromatography into oligosaccharides and polysaccharides. Lan3-2 oligosaccharide structure was characterized by gas chromatography of alditol acetates, methylation analysis, 500 MHz 1H NMR spectroscopy, matrix-assisted laser desorption/ionization mass spectrometry, and electrospray ionization tandem MS-MS of permethylated derivatives. The predominant components of the Lan3-2 oligosaccharide fraction were a series of linear β-(1,4)-linked mannose polymers. The homologous expression of the Lan3-2 epitope in C. elegans will facilitate the exploration of its glycosylation pathway. Other invertebrates expressing the Lan3-2 epitope are Planaria dugesia, Capitella sp. I and Lumbriculus variegatus. The glycoepitope was not detected in the diploblastic animals Hydra littoralis and Aptaisia sp. or in deuterostomes. [ABSTRACT FROM AUTHOR]

Published
2008
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16. aglF, aglG and aglI, novel members of a gene island involved in the N-glycosylation of the Haloferax volcanii S-layer glycoprotein.

Author

Yurist-Doutsch, Sophie, Abu-Qarn, Mehtap, Battaglia, Francesca, Morris, Howard R., Hitchen, Paul G., Dell, Anne, and Eichler, Jerry

Subjects
PROTEIN synthesis, GLYCOSYLATION, GLYCOPROTEINS, GENES, GENOMES, MOLECULAR genetics
Abstract

Proteins in all three domains of life can experience N-glycosylation. The steps involved in the archaeal version of this post-translational modification remain largely unknown. Hence, as the next step in ongoing efforts to identify components of the N-glycosylation pathway of the halophilic archaeon Haloferax volcanii, the involvement of three additional gene products in the biosynthesis of the pentasaccharide decorating the S-layer glycoprotein was demonstrated. The genes encoding AglF, AglI and AglG are found immediately upstream of the gene encoding the archaeal oligosaccharide transferase, AglB. Evidence showing that AglF and AglI are involved in the addition of the hexuronic acid found at position three of the pentasaccharide is provided, while AglG is shown to contribute to the addition of the hexuronic acid found at position two. Given their proximities in the H. volcanii genome, the transcription profiles of aglF, aglI, aglG and aglB were considered. While only aglF and aglI share a common promoter, transcription of the four genes is co-ordinated, as revealed by determining transcript levels in H. volcanii cells raised in different growth conditions. Such changes in N-glycosylation gene transcription levels offer additional support for the adaptive role of this post-translational modification in H. volcanii. [ABSTRACT FROM AUTHOR]

Published
2008
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17. Structural characterization and functional properties of a novel lipomannan variant isolated from a Corynebacterium glutamicum pimB' mutant.

Author

Mishra, Arun K., Klein, Christina, Gurcha, Sudagar S., Alderwick, Luke J., Babu, Ponnusamy, Hitchen, Paul G., Morris, Howard R., Dell, Anne, Besra, Gurdyal S., and Eggeling, Lothar

Abstract

The genus Corynebacterium is part of the phylogenetic group nocardioform actinomycetes, which also includes the genus Mycobacterium. Members of this phylogenetic group have a characteristic cell envelope structure, which is dominated by complex lipids and amongst these, lipoglycans are of particular interest. The disruption of NCgl2106 in C. glutamicum resulted in a mutant devoid of monoacylated phosphatidyl-myo-inositol dimannoside (Ac1PIM2) resulting in the accumulation of Ac1PIM1 and cessation of phosphatidyl-myo-inositol (PI) based lipomannan (Cg-LM, now also termed ‘Cg-LM-A’) and lipoarabinomannan (Cg-LAM) biosynthesis. Interestingly, SDS-analysis of the lipoglycan fraction from the mutant revealed the synthesis of a single novel lipoglycan, now termed ‘Cg-LM-B’. Further chemical analyses established the lipoglycan possessed an a-D-glucopyranosyluronic acid-(1 → 3)-glycerol (GlcAGroAc2) based anchor which was then further glycosylated by 8–22 mannose residues, with Man12–20GlcAGroAC2molecular species being the most abundant, to form a novel lipomannan structure (Cg-LM-B). The deletion of NCgl2106 in C. glutamicum has now provided a useful strain, in addition with a deletion mutant of NCgl0452 in C. glutamicum for the purification of Cg-LM-A and Cg-LM-B. Interestingly, both Cg-LM species induced a similar production of TNF-a by a human macrophage cell line suggesting that the phospho-myo-inositol residue of the PI-anchor does not play a key role in lipoglycan pro-inflammatory activity. [ABSTRACT FROM AUTHOR]

Published
2008
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18. The sperm agglutination antigen-1 (SAGA-1) glycoforms of CD52 are O-glycosylated.

Author

Parry, Simon, Wong, Nyet-Kui, Easton, Richard L., Panico, Maria, Haslam, Stuart M., Morris, Howard R., Anderson, Peggy, Klotz, Kenneth L., Herr, John C., Diekman, Alan B., and Dell, Anne

Subjects
ANTIGENS, SPERMATOZOA, AGGLUTINATION, GLYCOSYLATION, PEPTIDES, GLYCOPEPTIDES
Abstract

CD52 is composed of a 12 amino acid peptide with N-linked glycans bound to the single potential glycosylation site at position 3, and a glycosylphosphatidylinositol-anchor attached at the C-terminus. Some glycoforms of this molecule expressed in the male reproductive tract are recognized by complement-dependent sperm-immobilizing antibodies in infertile patients making this antigen an important target for immunocontraception and fertility studies. Although the amount of posttranslational modification is already remarkable for such a small polypeptide, O-glycosylation of CD52 has additionally been implicated by several studies, but never rigorously characterized. In this report, we show clear evidence for the presence of O-glycans in CD52 preparations immunopurified using the murine S19 monoclonal antibody generated against sperm agglutination antigen-1 (SAGA-1), a male reproductive tract specific form of CD52. The O-glycans have been characterized by MALDI-TOF and tandem mass spectrometry after reductive elimination and permethylation. The data indicate that the major SAGA-1 O-glycans are core 1 and 2 mucin-type structures, with and without sialic acid (NeuAc0−2Hex1−3HexNAc1−2HexNAcitol). Minor fucosy- lated O-glycans are also present including some struc- tures with putative Ley epitopes (NeuAc0−1Fuc1−3Hex1−2 HexNAc0−1HexNAcitol). Analysis of O-glycopeptides by tandem mass spectrometry provided an additional level of support for the O-glycosylation of SAGA-1. Elucidation of the O-glycosylation of SAGA-1 adds to the complexity of this molecule and may help to explain its biological activity. [ABSTRACT FROM PUBLISHER]

Published
2007
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19. Towards understanding the functional role of the glycosyltransferases involved in the biosynthesis of Moraxella catarrhalis lipooligosaccharide.

Author

Peak, Ian R., Grice, I. D., Faglin, Isabelle, Klipic, Zoran, Collins, Patrick M., van Schendel, Lucien, Hitchen, Paul G., Morris, Howard R., Dell, Anne, and Wilson, Jennifer C.

Subjects
GLYCOSYLTRANSFERASES, ENZYMES, BIOSYNTHESIS, MORAXELLA, OTITIS media, OLIGOSACCHARIDES, OBSTRUCTIVE lung diseases
Abstract

The glycosyltransferase enzymes (Lgts) responsible for the biosynthesis of the lipooligosaccharide-derived oligosaccharide structures from Moraxella catarrhalis have been investigated. This upper respiratory tract pathogen is responsible for a spectrum of illnesses, including otitis media (middle ear infection) in children, and contributes to exacerbations of chronic obstructive pulmonary disease in elderly patients. To investigate the function of the glycosyltransferase enzymes involved in the biosynthesis of lipooligosaccharide of M. catarrhalis and to gain some insight into the mechanism of serotype specificity for this microorganism, mutant strains of M. catarrhalis were produced. Examination by NMR and MS of the oligosaccharide structures produced by double-mutant strains (2951lgt1/4Δ and 2951lgt5/4Δ) and a single-mutant strain (2951lgt2Δ) of the bacterium has allowed us to propose a model for the serotype-specific expression of lipooligosaccharide in M. catarrhalis. According to this model, the presence/absence of Lgt4 and the Lgt2 allele determines the lipooligosaccharide structure produced by a strain. Furthermore, it is concluded that Lgt4 functions as an N-acetylglucosylamine transferase responsible for the addition of an α-d-GlcNAc (1→2) glycosidic linkage to the (1→4) branch, and also that there is competition between the glycosyltransferases Lgt1 and Lgt4. That is, in the presence of an active Lgt4, GlcNAc is preferentially added to the (1→4) chain of the growing oligosaccharide, instead of Glc. In serotype B strains, which lack Lgt4, Lgt1 adds a Glc at this position. This implies that active Lgt4 has a much higher affinity/specificity for the β-(1→4)-linked Glc on the (1→4) branch than does Lgt1. [ABSTRACT FROM AUTHOR]

Published
2007
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20. Essential and mutually compensatory roles of α-mannosidase II and α-mannosidase IIx in N-glycan processing in vivo in mice.

Author

Akama, Tomoya O., Nakagawa, Hiroaki, Nyet Kui Wong, Sutton-Smith, Mark, Dell, Anne, Morris, Howard R., Nakayama, Jun, Nishimura, Shin-Ichiro, Pai, Ashok, Moremen, Kelley W., Marth, Jamey D., and Fukuda, Michiko N.

Subjects
RESPIRATORY insufficiency, GENETIC mutation, MANNOSIDASES, GLYCOSYLATION, ENZYME analysis, ISOENZYMES
Abstract

Many proteins synthesized through the secretory pathway receive posttranslational modifications, including N-glycosylation. α-Mannosidase II (MII) is a key enzyme converting precursor high-mannose-type N-glycans to matured complex-type structures. Previous studies showed that MII-null mice synthesize complex-type N-glycans, indicating the presence of an alternative pathway. Because a-mannosidase IIx (MX) is a candidate enzyme for this pathway, we asked whether MX functions in N-glycan processing by generating MII/MX double-null mice. Some double-nulls died between embryonic days 15.5 and 18.5, but most survived until shortly after birth and died of respiratory failure, which represents a more severe phenotype than that seen in single-nulls for either gene. Structural analysis of N-glycans revealed that double-nulls completely lack complex-type N-glycans, demonstrating a critical role for at least one of these enzymes for effective N-glycan processing. Recombinant mouse MX and MII showed identical substrate specificities toward N-glycan substrates, suggesting that MX is an isozyme of MII. Thus, either MII or MX can biochemically compensate for the deficiency of the other in vivo, and either of two is required for late embryonic and early postnatal development. [ABSTRACT FROM AUTHOR]

Published
2006
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21. Endosialin (TEM1, CD248) is a marker of stromal fibroblasts and is not selectively expressed on tumour endothelium

Author

MacFadyen, John R., Haworth, Oliver, Roberston, David, Hardie, Deborah, Webster, Marie-Therese, Morris, Howard R., Panico, Maria, Sutton-Smith, Mark, Dell, Anne, van der Geer, Peter, Wienke, Dirk, Buckley, Christopher D., and Isacke, Clare M.

Subjects
MOLECULAR cloning, MONOCLONAL antibodies, BLOOD vessels, NEOVASCULARIZATION
Abstract

Abstract: Fibroblasts are a diverse cell type and display clear topographic differentiation and positional memory. In a screen for fibroblast specific markers we have characterized four monoclonal antibodies to endosialin (TEM1/CD248). Previous studies have reported that endosialin is a tumour endothelium marker and is localized intracellularly. We demonstrate conclusively that endosialin is a cell surface glycoprotein and is predominantly expressed by fibroblasts and a subset of pericytes associated with tumour vessels but not by tumour endothelium. These novel antibodies will facilitate the isolation and classification of fibroblast and pericyte lineages as well as the further functional analysis of endosialin. [Copyright &y& Elsevier]

Published
2005
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23. Functional analysis of theCampylobacter jejuniN-linked protein glycosylation pathway.

Author

Linton, Dennis, Dorrell, Nick, Hitchen, Paul G., Amber, Saba, Karlyshev, Andrey V., Morris, Howard R., Dell, Anne, Valvano, Miguel A., Aebi, Markus, and Wren, Brendan W.

Subjects
CAMPYLOBACTER jejuni, CAMPYLOBACTER, BACTERIOLOGY, MOLECULAR microbiology, MICROBIOLOGY, MOLECULAR biology, BIOLOGY
Abstract

We describe in this report the characterization of the recently discovered N-linked glycosylation locus of the human bacterial pathogenCampylobacter jejuni, the first such system found in a species from the domain Bacteria. We exploited the ability of this locus to function inEscherichia colito demonstrate through mutational and structural analyses that variant glycan structures can be transferred onto protein indicating the relaxed specificity of the putative oligosaccharyltransferase PglB. Structural data derived from these variant glycans allowed us to infer the role of five individual glycosyltransferases in the biosynthesis of the N-linked heptasaccharide. Furthermore, we show thatC. jejuni- andE. coli-derived pathways can interact in the biosynthesis of N-linked glycoproteins. In particular, theE. coliencoded WecA protein, a UDP-GlcNAc: undecaprenylphosphate GlcNAc-1-phosphate transferase involved in glycolipid biosynthesis, provides for an alternative N-linked heptasaccharide biosynthetic pathway bypassing the requirement for theC. jejuni-derived glycosyltransferase PglC. This is the first experimental evidence that biosynthesis of the N-linked glycan occurs on a lipid-linked precursor prior to transfer onto protein. These findings provide a framework for understanding the process of N-linked protein glycosylation in Bacteria and for devising strategies to exploit this system for glycoengineering. [ABSTRACT FROM AUTHOR]

Published
2005
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24. Unique modifications with phosphocholine and phosphoethanolamine define alternate antigenic forms of Neisseria gonorrhoeae type IV pili.

Author

Hegge, Finn Terje, Hitchen, Paul G., Aas, Finn Erik, Kristiansen, Heidi, Løvold, Cecilia, Wolfgang Egge-Jacobsen, Panico, Maria, Leong, Weng Yee, Bull, Victoria, Virji, Mumtaz, Morris, Howard R., Dell, Anne, and Koomey, Michael

Subjects
IMMUNOGLOBULINS, ANTIGENS, MUCOUS membranes, EPITOPES, PEPTIDES, PATHOGENIC microorganisms
Abstract

Several major bacterial pathogens and related commensal species colonizing the human mucosa express phosphocholine (PC) at their cell surfaces. PC appears to impact host-microbe biology by serving as a ligand for both C-reactive protein and the receptor for platelet-activating factor. Type IV pili of Neisseria gonorrhoeae (Ng) and Neisseria meningitidis, filamentous protein structures critical to the colonization of their human hosts, are known to react variably with monoclonal antibodies recognizing a PC epitope. However, the structural basis for this reactivity has remained elusive. To address this matter, we exploited the finding that the PilE pilin subunit in Ng mutants lacking the PiIV protein acquired the PC epitope independent of changes in pilin primary structure. Specifically, we show by using mass spectrometry that PilE derived from the piIV background is composed of a mixture of subunits bearing O-linked forms of either phosphoethanolamine (PE) or PC at the same residue, whereas the wild-type background carries only PE at that same site. Therefore, PiIV can influence pilin structure and antigenicity by modulating the incorporation of these alternative modifications. The disaccharide covalently linked to Ng pilin was also characterized because it is present on the same peptides bearing the PE and PC modifications and, contrary to previous reports, was found to be linked by means of 2,4-diacet- amido-24,6-trideoxyhexose. Taken together, these findings pro- vide new insights into Ng type IV pilus structure and antigenicity and resolve long-standing issues regarding the nature of both the PC epitope and the pilin glycan. [ABSTRACT FROM AUTHOR]

Published
2004
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25. Murine and Human zona pellucida 3 derived from mouse eggs express identical O-glycans.

Author

Dell, Anne, Chalabi, Sara, Easton, Richard L., Haslam, Stuart M., Sutton-Smith, Mark, Patankar, Manish S., Lattanzio, Frank, Panico, Maria, Morris, Howard R., and Clark, Gary F.

Subjects
FERTILIZATION (Biology), ZONA pellucida, SPERMATOZOA, EMBRYOLOGY, CELL membranes, GLYCOSYLATION, AMINO compounds, GLYCOPROTEINS
Abstract

Murine sperm initiate fertilization by binding to the outer covering of the egg known as the murine zona pellucida (mZP). This binding is thought to require the interaction of O-glycans linked to a specific mZP glycoprotein (mZP3) with egg-binding proteins coating the sperm plasma membrane. The precise molecular basis of this interaction remains to be resolved. In this study, we analyzed the O-glycosylation of the individual mZP glycoproteins by using ultrasensitive MS methods. We found that the majority of the O-glycans that are linked to mZP3 are core type 2 sequences terminated with sialic acid, lacNAc (Galβ1-4GIcNAc), lacdiNAc (GalNAcβ1-4GIcNAc), Galα1-3Gal, and NeuAcα2-3[GalNAcβ1-4]Galβ1-4 (Sd[SUPa] antigen). Many of these terminal sequences have been implicated previously in murine sperm-egg binding. Core type 1 Oglycans are also present and are generally unmodified, although some are terminated with sialic acid, β-linked N-acetylhexosamine, or NeuAcα2-3[GalNAcβ1-4]Galβ1-4. Eggs expressing human ZP (huZP) glycopr0tein huZP3, derived from transgenic mice, bind murine but not human sperm, implying that huZP3 acquires the same O-glycans as native mZP3. Sequencing of huZP3-associated O-glycans confirms that this implication is correct. The data obtained in this investigation may prove to be very useful for studies to determine the precise molecular basis of initial murine sperm egg binding. [ABSTRACT FROM AUTHOR]

Published
2003
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26. Structural characterization of lipo-oligosaccharide (LOS) from Yersinia pestis: regulation of LOS structure by the PhoPQ system.

Author

Hitchen, Paul G, Prior, Joann L, Oyston, Petra C. F, Panico, Maria, Wren, Brendan W, Titball, Richard W, Morris, Howard R, and Dell, Anne

Subjects
OLIGOSACCHARIDES, YERSINIA pestis, PEPTIDES
Abstract

Summary The two-component regulatory system PhoPQ has been shown to regulate the expression of virulence factors in a number of bacterial species. For one such virulence factor, lipopolysaccharide (LPS), the PhoPQ system has been shown to regulate structural modifications in Salmonella enterica var Typhi-murium. In Yersinia pestis , which expresses lipo-oligosaccharide (LOS), a PhoPQ regulatory system has been identified and an isogenic mutant constructed. To investigate potential modifications to LOS from Y. pestis , which to date has not been fully characterized, purified LOS from wild-type plague and the phoP defective mutant were analysed by mass spectrometry. Here we report the structural characterization of LOS from Y. pestis and the direct comparison of LOS from a phoP mutant. Structural modifications to lipid A, the host signalling portion of LOS, were not detected but analysis of the core revealed the expression of two distinct molecular species in wild-type LOS, differing in terminal galactose or heptose. The phoP mutant was restricted to the expression of a single molecular species, containing terminal heptose. The minimum inhibitory concentration of cationic antimicrobial peptides for the two strains was determined and compared with the wild-type: the phoP mutant was highly sensitive to polymyxin. Thus, LOS modification is under the control of the PhoPQ regulatory system and the ability to alter LOS structure may be required for survival of Y. pestis within the mammalian and/or flea host. [ABSTRACT FROM AUTHOR]

Published
2002
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27. In vivo glycosylationof mucin tandem repeats.

Author

Silverman, Howard S., Parry, Simon, Sutton-Smith, Mark, Burdick, Michael D., McDermott, Kimberly, Reid, Colm J., Batra, Surinder K., Morris, Howard R., Hollingsworth, Michael A., Dell, Anne, and Harris, Ann

Abstract

The biochemical and biophysical properties of mucinsare largely determined by extensive O-glycosylation of serine- andthreonine-rich tandem repeat (TR) domains. In a number of humandiseases aberrant O-glycosylation is associated with variationsin the properties of the cell surface–associated and secretedmucins. To evaluate in vivo the O-glycosylationof mucin TR domains, we generated recombinant chimeric mucins withTR sequences from MUC2, MUC4, MUC5AC, or MUC5B, which were substituted forthe native TRs of epitope-tagged MUC1 protein (MUC1F). These hybridmucins were extensively O-glycosylated and showed the expected associationwith the cell surface and release into culture media. The presenceof different TR domains within the chimeric mucins appears to have limitedinfluence on their posttranslational processing. Alterations inglycosylation were detailed by fast atom bombardment mass spectrometryand reactivity with antibodies against particular blood-group andtumor-associated carbohydrate antigens. Future applications of thesechimeras will include investigations of mucin posttranslationalmodification in the context of disease. [ABSTRACT FROM PUBLISHER]

Published
2001
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28. Genetic remodeling of protein glycosylation in vivo induces autoimmune disease.

Author

Chui, Daniel, Sellakumar, Gayathri, Green, Ryan S., Sutton-Smith, Mark, McQuistan, Tammie, Marek, Kurt W., Morris, Howard R., Dell, Anne, and Marth, Jamey D.

Subjects
AUTOIMMUNE diseases, GLYCOSYLATION, LYMPHOID tissue
Abstract

Focuses on the contribution of the mutation of a single gene to the formation of a systemic autoimmune disease similar to human systemic lupus erythematosus. Contribution of protein glycosylation to kidney scarring in the mutant animals; Detection of immune cell defects in the lymphoids; detection of autoimmune disease with lymphocyte activation.

Published
2001
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29. The Species Recognition System: A New Corollary for the Human Fetoembryonic Defense System Hypothesis.

Author

Clark, Gary F., Dell, Anne, Morris, Howard R., Patankar, Manish S., and Easton, Richard L.

Subjects
IMMUNOLOGY, GLYCOCONJUGATES, IMMUNOSUPPRESSION, FETUS, DEVELOPMENTAL biology
Abstract

We have previously suggested that the human fetus is protected during human development by a system of both soluble and cell surface associated glycoconjugates that utilize their carbohydrate sequences as functional groups to enable them to evoke tolerance. The proposed model has been referred to as the human fetoembryonic defense system hypothesis (hu-FEDS). In this paradigm, it has previously been proposed that similar oligosaccharides are used to mediate crucial recognition events required during both human sperm-egg binding and immune-inflammatory cell interactions. This vertical integration suggested to us that the sperm-egg binding itself is related to universal recognition events that occur between immune and inflammatory cells, except that in this case recognition of ‘species’ rather than recognition of ‘self’ is being manifested. In this paper, we have designated this component of hu-FEDS as the species recognition system (SRS). We propose that the SRS is an integral component of the hu-FEDS used to enable sperm-egg recognition and protection of the gametes from potential immune responses. Recent structural data indicates that the glycan sequences implicated in mediating murine gamete recognition are also expressed on CD45 in activated murine T lymphocytes and cytotoxic T lymphocytes. This overlap supports our contention that there is an overlap between the immune and gamete recognition systems. Therefore the hu-FEDS paradigm may be a subset of a larger model that also applies to other placental mammals. We therefore propose that the hu-FEDS model for protection should in the future be referred to as the eutherian fetoembryonic defense system hypothesis (eu-FEDS) to account for this extension. The possibility exists that the SRS component of eu-FEDS could predate eutherians and extend to all sexually reproducing organisms. Future investigation of the interactions between the immune and gamete recognition system will be required to determine the degree of overlap.Copyright © 2001 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published
2001
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30. Recombinant glycodelin carrying the same type of glycan structures as contraceptive glycodelin-A can be produced in human kidney 293 cellsbut not in Chinese hamster ovary cells.

Author

Van den Nieuwenhof, Ingrid M., Koistinen, Hannu, Easton, Richard L., Koistinen, Riitta, Kämäräinen, Meerit, Morris, Howard R., van Die, Irma, Seppälä, Markku, Dell, Anne, and Van den Eijnden, Dirk H.

Subjects
KIDNEYS, CELLS, ANIMAL models in research, CYTOLOGY
Abstract

We have produced human recombinant glycodelin in human kidney 293 cells and in Chinese hamster ovary (CHO) cells. Structural analyses by lectin immunoassays and fast atom bombardment mass spectrometry showed that recombinant human glycodelin produced in CHO cells contains only typical CHO-type glycans and is devoid of any of the N,N′-diacetyllactosediamine (lacdiNAc)-based chains previously identified in glycodelin-A (GdA). By contrast, human kidney 293 cells produced recombinant glycodelin with the same type of carbohydrate structures as GdA. The presence of a β1→4-N-acetylgalactosaminyltransferase functioning in the synthesis of lacdiNAc-based glycans in human kidney 293 cells is concluded to be the cause of the occurrence of lacdiNAc-based glycans on glycodelin produced in these cells. Furthermore, human kidney 293 cells were found to be particularly suited for the production of recombinant glycodelin when they were cultured in high glucose media. Lowering the glucose concentration and the addition of glucosamine resulted in higher relative amounts of oligomannosidic-type glycans and complex glycans with truncated antennae. Human glycodelin is an attractive candidate for the development of a contraceptive agent, and this study gives valuable information for selecting the proper expression system and cell culture conditions for the production of a correctly glycosylated recombinant form. [ABSTRACT FROM AUTHOR]

Published
2000
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31. Phase variation of a β-1,3 galactosyltransferase involved in generation of the ganglioside GM[sub1]-like lip-oligosaccharide of Campylobacter jejuni.

Author

Linton, Dennis, Gilbert, Michel, Hitchen, Paul G., Dell, Anne, Morris, Howard R., Wakarchuk, Warren W., Gregson, Norman A., and Wren, Brendan W.

Subjects
GANGLIOSIDES, CAMPYLOBACTER jejuni, NEUROPATHY
Abstract

Examines the importance of ganglioside mimicry by Campylobacter jejuni lipooligosaccharide (LOS) in triggering the Miller-Fisher syndrome neuropathies. Identification of genes involved in the biosynthesis of ganglioside mimicking LOS; Increase of the electrophoretic mobility of LOS molecule; Presence of intragenic homopolymeric tract renders.

Published
2000
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33. Multiple N-acetyl neuraminic acid synthetase (neuB) genes inCampylobacter jejuni: identification and characterization of the gene involved in sialylation of lipo-oligosaccharide.

Author

Linton, Dennis, Karlyshev, Andrey V., Hitchen, Paul G., Morris, Howard R., Dell, Anne, Gregson, Norman A., and Wren, Brendan W.

Subjects
CAMPYLOBACTER jejuni, LIGASES, MICROBIAL enzymes, OLIGOSACCHARIDES
Abstract

N-acetyl neuraminic acid (NANA) is a common constituent of Campylobacter jejuni lipo-oligosaccharide (LOS). Such structures often mimic human gangliosides and are thought to be involved in the triggering of Guillain-Barré syndrome (GBS) and Miller-Fisher syndrome (MFS) following C. jejuni infection. Analysis of the C. jejuni NCTC 11168 genome sequence identified three putative NANA synthetase genes termed neuB1, neuB2 and neuB3. The NANA synthetase activity of all three C. jejuni neuB gene products was confirmed by complementation experiments in an Escherichia coli neuB-deficient strain. Isogenic mutants were created in all three neuB genes, and for one such mutant (neuB1) LOS was shown to have increased mobility. C. jejuni NCTC 11168 wild-type LOS bound cholera toxin, indicating the presence of NANA in a LOS structure mimicking the ganglioside GM[sub 1]. This property was lost in the neuB1 mutant. Gas chromatography-mass spectrometry and fast atom bombardment-mass spectrometry analysis of LOS from wild-type and the neuB1 mutant strain demonstrated the lack of NANA in the latter. Expression of the neuB1 gene in E. coli confirmed that NeuB1 was capable of in vitro NANA biosynthesis through condensation of N-acetyl-D-mannosamine and phosphoenolpyruvate. Southern analysis demonstrated that the neuB1 gene was confined to strains of C. jejuni with LOS containing a single NANA residue. Mutagenesis of neuB2 and neuB3 did not affect LOS, but neuB3 mutants were aflagellate and non-motile. No phenotype was evident for neuB2 mutants in strain NCTC 11168, but for strain G1 the flagellin protein from the neuB2 mutant showed an apparent reduction in molecular size relative to the wild type. Thus, the neuB genes of C. jejuni appear to be involved in the biosynthesis of at least two distinct surface structures: LOS and flagella. [ABSTRACT FROM AUTHOR]

Published
2000
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34. A role for glycoconjugates in human development: the human feto-embryonic defence system hypothesis.

Author

Clark, Gary F., Oehinger, Sergio, Patankar, Manihsh S., Koistinen, Riita, Dell, Anne, Morris, Howard R., Koistinen, Hannu, and Seppälä, Markku

Abstract

The mechanisms underlying the protection of the human embryo/fetus from the meternla immune response are poorly understood. Substantial evidence indicates that carbohydrate recognition plays a promary role in the sequestration of leukocytes during inflammatory processes, lumphocyte homing, and initial gamete binding. Our previous studies suggest a possible convergence inthe types of carbohydrate sequences recognized furing initial human gamete binding and immune/inflammatory cell inter-actions. Our more recent findings indicate that oligasacch-arrides participating in suchprocesses are also associated with soluble glycoconjugates found in the humanplacenta, amniotic fluid, and decidua. We theorize that such glycocon-jugates amy abrogaste the maternal immune/inflammatory response tby blocking the primary adhesice interactions requieed for the expression of such activities. Foreign embryonic cells amay also be protected by surface expression of oligosaccharide sequences that suppress immune effector cell action n a manner not dependent upon classicla major histocompatibility (MHC) recognition. Gklycoconjugates expressing selectin ligands amy also manifest a potent contraceptive effect that amy also be beneficial for both the mother anf the developing embryo/9 fetus. This hypothesis provides a preliminary frame work for undestanding how temporally and sapatially restricted immunosupressive effects could be expressed in utero that protect the human embryo/fetus during this period of human development. [ABSTRACT FROM PUBLISHER]

Published
1996
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42. Occurrence and structural analysis of highly sulfated multiantennary N-linked glycan chains derived from a fertilization-associated carbohydrate-rich glycoprotein in unfertilized eggs of Tribolodon hakonensis.

Author

Taguchi, Tomohiko, Iwasaki, Mariko, Muto, Yutaka, Kitajima, Ken, Inoue, Sadako, Khoo, Kay-Hooi, Morris, Howard R., Dell, Anne, and Inoue, Yasuo

Subjects
POLYMERIZATION, CHEMICAL reactions, GLYCOPROTEINS, EGGS, TRIBOLODON hakonensis, BIOCHEMISTRY
Abstract

Discusses the occurrence and structural analysis of highly sulfated multiantennary N-linked glycan chains derived from a fertilization-associated carbohydrate-rich glycoprotein in the unfertilized eggs of tribolodon hakonensis. Derivation and mild methanolysis; Structure of the N-glycan chains; Skeletal structure.

Published
1996
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46. Structural mapping of the glycans from the egg glycoproteins of Schistosoma mansoni and Schistosoma japonicum: identification of novel core structures and terminal sequences.

Author

Khoo, Kay-Hooi, Chatterjee, Delphi, Caulfield, John P., Morris, Howard R., and Dell, Anne

Abstract

The structural diversity of the glycans from Schistosoma mansoni and Schistosoma japonicum egg glycoproteins was investigated using high sensitivity fast atom bombardment mass spectrometric screening of glycan pools released enzymically or chemically from egg extracts. The egg glycoproteins from the two species carry a comparable range of high mannose and complex type N-glycans with both lacNAc and lacdiNAc constituting the backbones of the antennae in the latter class. Truncated N-glycans similar to those found on nematodes, insects, and plants were also identified. Sequential digestion with peptide N-glycosidase F and peptide N-glycosidase A afforded effective release and separation of N-glycans with nonfucosylated or α6-monofucosylated trimannosyl N,N'-diacetyl-chitobiose cores from those carrying core α3-, α6-difucosylation, all of which were found to be present in both species. Remarkably, a portion of the N-glycans from S.mansoni eggs was shown to be based on a xylosylated, α6-fucosylated trimannosyl core, whereas a portion of those from S.japonicum contains a xylosylated α3-, α6-difucosylated core which has not been previously described in any organism. O-Glycans were chemically released from the de-N-glycosylated glycopeptides and found to carry terminal sequences similar to those in the N-glycans. This study provides further evidence that multi-fucosylated terminal HexNAc units, previously identified on the cercarial glycocalyx O-glycans and egg glycosphingolipids, and now on the egg N- and O-glycans, are unique features of S.mansoni glycans. These multifucosylated terminal structures, which were not detected on the egg glycans of S.japonicum, are likely to constitute the cross-reacting epitopes between the eggs and cercariae of S.mansoni. Interestingly other HexNAc termini, including an unusual stretch of HexNAc3, were found to be common to both species. The mapping studies reported in this article provide an important foundation for further structural work in this challenging and important area of glycobiology. [ABSTRACT FROM PUBLISHER]

Published
1997
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47. Structural characterization of glycosphingolipids from the eggs of Schistosoma mansoni and Schistosoma japonicum.

Author

Khoo, Kay-Hooi, Chatterjee, Delphi, Caulfield, John P., Morris, Howard R., and Dell, Anne

Abstract

The granulomatous pathology in human intestinal schistosomiasis is induced primarily by the egg antigens of schistosome, a parasitic trematode. Glycolipids and glycoproteins were extracted from the eggs of the two major species which infect human, Schistosoma mansoni and Schistosoma japonicum, for structural characterization based on highly sensitive mass spectrometric analysis coupled with chemical derivatization. Here, we demonstrate that a series of uniquely multifucosylated glycosphingolipids constitute the major egg glycolipids of S.mansoni but not of S.japonicum. The S.mansoni glycosphingolipids were found to be extended by varying numbers of an unusual repeating unit, →4(Fucl→2Fucl→3)GlcNAcl→, and terminating as ±Fucl→2Fucl→3GalNAcl→ at the nonreducing terminus. The similarity of these fucosylated structures, particularly the nonreducing terminal sequence, to the previously identified multifucosylated O-linked oligosaccharides of the cercarial glycocalyx, suggests that they may constitute the cross-reacting epitopes between the egg antigens and cercariae of S.mansoni On the other hand, the difucosylated GalNAc terminal epitope was not found on the glycosphingolipids of S.japonicum. Thus, it qualifies for a possible role as a species-specific recognition glycan. [ABSTRACT FROM PUBLISHER]

Published
1997
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48. Occurrence of terminal α2 →8-linked disialylated poly-N-acetyllactosamine chains with Lex and I antigenic glycotopes in tetraantennary arms of an N-linked glycoprotein isolated from rainbow trout ovarian fluid.

Author

Funakoshi, Yoko, Taguchi, Tomohiko, Sato, Chihiro, Kitajima, Ken, Inoue, Sadako, Morris, Howard R., Dell, Anne, and Inoue, Yasuo

Abstract

The Pronase digestion of a 54K glycoprotein present in ovarian fluid of rainbow trout yielded a major glycopeptide. Carbohydrate compositional analysis revealed that this glycopeptide was likely to possess a single large N-glycan chain having low molecular weight oligomers of N-acetylneuraminic acid (oligoNeu5Ac). Structural studies of this glycopeptide revealed novel α2 → 8-linked disialylated poly-N-acetyllactosamine chains with Lex and I antigenic determinants on the N-linked tetraan ten nary core glycan. In our recent studies (Kitazume,S., Kitajima,K., Inoue,S., Inoue,Y. and Troy,F.A. (1994) J. Biol Chem. 269, 10330-10340) we presented evidence that synthesis of α2 → 8-linked polysialic acid (polySia) chains is a two-step process in which chain initiation is catalyzed by an α2 → 8-sialyltransferase (α2 → 8-ST; initiase) that catalyzes synthesis of the first Sia α2 → 8-linkage, forming the disialic acid (diSia) unit, Siaα2 → 8-Siaα2 → 6-Gal-.Chain polymerization is then postulated to be catalyzed by a second enzyme, an α2 → 8-polyST (“polymerase”) that converts the diSia units to polySia chains. The present structural studies leading to the discovery of α2 → 8-linked disialylated units that terminate poly-N-acetyllactosamine chains in an N-linked glycoprotein is further evidence in support of our hypothesis that more than one sialyltrans-ferase activity is required for polySia chain synthesis and polymerization. [ABSTRACT FROM PUBLISHER]

Published
1997
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49. Characterization of carbohydrate structural features recognized by anti-arabinogalactan-protein monoclonal antibodies.

Author

Yates, Edwin A., Valdor, Jean-François, Haslam, Stuart M., Morris, Howard R., Dell, Anne, Mackie, William, and Knox, J.Paul

Abstract

Arabinogalactan-proteins (AGPs) are a diverse class of plant cell surface proteoglycans implicated in a range of fundamental processes associated with plant cell development. Anti-AGP monoclonal antibodies have been used extensively for the investigation of the developmental regulation of AGPs although virtually nothing is known about the structure of the carbohydrate epitopes recognised by these antibodies. In this report, a series of methyl glycosides of monosaccharides and a range of oligosaccharides that are elements of the carbohydrate component of AGPs have been investigated for recognition by previously derived anti-AGP monoclonal antibodies. No clear evidence was obtained for the involvement of terminal arabinofuranosides, nor of the galactan backbone, in the recognition of the glycan structure of AGPs by any of the antibodies used in this study. Interestingly, the most effective inhibitor of the binding of the monoclonal antibodies MAC207, JIM4 and JIM13 to exudate gum antigens was an acidic trisaccharide, isolated from a partial acid hydrolysate of gum karaya which has the structure: GlcAβ(1→3) GalAα(1→2)Rha, determined by a combination of FAB-MS, GC-MS and NMR spectroscopy. [ABSTRACT FROM PUBLISHER]

Published
1996
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50. A precise structural analysis of a fertilization-associated carbohydrate-rich glycopeptide isolated from the fertilized eggs of euryhaline killi fish (Fundulus heteroclitus). Novel penta-antennary N-glycan chains with a bisecting N-acetylglucosaminyl ...

Author

Taguchi, Tomohiko, Kitajima, Ken, Muto, Yutaka, Inoue, Sadako, Khoo, Kay-Hooi, Morris, Howard R., Dell, Anne, Wallace, Robin A., Selman, Kelly, and Inoue, Yasuo

Abstract

A novel carbohydrate-rich sialoglycopeptide of apparent molecular mass $$$6 kDa was isolated from the fertilized eggs of (euryhaline killi fish). This glycopeptide is a member of the L-hyosophorin family, characterized by its high content of carbohydrate (80–90% by weight) and formed by depolymerization of the precursor glycopolyprotein (H-hyosophorin) upon fertilization. The structures of the -glycan chains were unambiguously established by a combination of compositional analysis, methylation analysis, selective chemical degradation (periodate oxidation-Smith degradation and hydrazinolysis-nitrous acid deamination), enzymatic (peptide:-g]ycosidase F, several β-galactosidases, (β-hexosaminidase and α-galactosidase) digestions and instrumental analyses (H-NMR and fast atom bombardment mass spectrometry) to have the novel and unique carbohydrate sequences, Galα1→3(Galβ1→4)Ga1β1→4GlcNAcβ1→ and Galα1→3(±GalNAcβ1→4GlcNAcβ1→3Galβ1→4)Gal-β1→4GlcNAcβ1→. This study represents the first detailed investigation of the nature of bulky complex asparagine-linked penta-antennary glycans with a bisecting GlcNAc residue in glycoproteins. Expression of such bulky multiantennary glycan units on proteins may be essential during early embryogenesis. [ABSTRACT FROM PUBLISHER]

Published
1995

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