Identification of high-mannose and multiantennary complex-type N-linked glycans containing α-galactose epitopes from Nurse shark IgM heavy chain

Chick corneal epithelium takes on its mature conformation between 11 and 16 days of incubation. Earlier work has shown that desmosome frequency increases during this period, reaching its highest rate at 15 1/2 days. In the present report aggregation rates of cells from embryos of 11 days and those of 15 1/2 days are compared. Younger cells, which form fewer desmosomes, aggregate at a more moderate rate than older cells. In addition, younger cells bind less concanavalin A (ConA) than older cells. To determine if increase in ConA binding could be related to these cellular responses, aggregating cells were exposed to endoglycosidase H (EndoH) and to deoxymannojirimycin. This treatment should permit comparison of the response of cells that have a normal complement of N-linked oligosaccharides with those that have reduced high-mannose or complex type sugars. The effectiveness of EndoH under the conditions used was confirmed by failure of treated glycoprotein after separation by SDS-PAGE and electroblotting to bind ConA. Aggregation rates of both older and younger cells were unaffected, as measured by disapperance of single cells, though older cells formed somewhat smaller aggregates at the highest dosage used. Desmosome formation was markedly reduced in the presence of the enzyme, even in the absence of other changes in the fine structure. At the highest dose of the enzyme the fine structure of older but not younger cells showed indications of blockage of transport. Deoxymannojirimycin appears to cause a build-up of high-mannose groups, since treated cells showed increased incorporation of [3H]mannose.(ABSTRACT TRUNCATED AT 250 WORDS)

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Man-Specific, GalNAc/T/Tn-Specific and Neu5Ac-Specific Seaweed Lectins as Glycan Probes for the SARS-CoV-2 (COVID-19) Coronavirus

Marine Drugs ◽

10.3390/md18110543 ◽

2020 ◽

Vol 18 (11) ◽

pp. 543

Author(s):

Annick Barre ◽

Els J.M. Van Damme ◽

Mathias Simplicien ◽

Hervé Benoist ◽

Pierre Rougé

Keyword(s):

Influenza Virus ◽

Antiviral Agents ◽

Host Cells ◽

Carbohydrate Binding ◽

Complex Type ◽

Enveloped Viruses ◽

High Mannose ◽

Hiv 1 ◽

Biomedical Interest

Seaweed lectins, especially high-mannose-specific lectins from red algae, have been identified as potential antiviral agents that are capable of blocking the replication of various enveloped viruses like influenza virus, herpes virus, and HIV-1 in vitro. Their antiviral activity depends on the recognition of glycoprotein receptors on the surface of sensitive host cells—in particular, hemagglutinin for influenza virus or gp120 for HIV-1, which in turn triggers fusion events, allowing the entry of the viral genome into the cells and its subsequent replication. The diversity of glycans present on the S-glycoproteins forming the spikes covering the SARS-CoV-2 envelope, essentially complex type N-glycans and high-mannose type N-glycans, suggests that high-mannose-specific seaweed lectins are particularly well adapted as glycan probes for coronaviruses. This review presents a detailed study of the carbohydrate-binding specificity of high-mannose-specific seaweed lectins, demonstrating their potential to be used as specific glycan probes for coronaviruses, as well as the biomedical interest for both the detection and immobilization of SARS-CoV-2 to avoid shedding of the virus into the environment. The use of these seaweed lectins as replication blockers for SARS-CoV-2 is also discussed.

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Clearance of acute-phase plasma proteins with no, high-mannose-, hybrid-, or complex type oligosaccharide side chains by the isolated perfused rat liver

Biochemical and Biophysical Research Communications ◽

10.1016/s0006-291x(86)80135-8 ◽

1986 ◽

Vol 141 (3) ◽

pp. 949-955 ◽

Cited By ~ 7

Author(s):

Klaus Steube ◽

Volker Gross ◽

Dieter Häussinger ◽

Thuy-Anh Tran-Thi ◽

Karl Decker ◽

...

Keyword(s):

Rat Liver ◽

Acute Phase ◽

Plasma Proteins ◽

Isolated Perfused Rat Liver ◽

Side Chains ◽

Perfused Rat Liver ◽

Complex Type ◽

High Mannose

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Changes in glycan branching and sialylation of the Thy-1 antigen during normal differentiation of mouse T-lymphocytes

Biochemical Journal ◽

10.1042/bj2260519 ◽

1985 ◽

Vol 226 (2) ◽

pp. 519-525 ◽

Cited By ~ 11

Author(s):

S R Carlsson

Keyword(s):

T Lymphocytes ◽

Polyacrylamide Gel Electrophoresis ◽

Sodium Dodecyl ◽

Gel Filtration ◽

Cell Types ◽

Complex Type ◽

Antigen Present ◽

High Mannose ◽

Normal Differentiation ◽

Immature Cells

The glycans of the Thy-1 antigen present on thymocytes and lymph-node T-lymphocytes were investigated after external labelling of the cells. Neuraminidase, endoglycosidase H and endoglycosidase F were used in combination with sodium dodecyl sulphate/polyacrylamide-gel electrophoresis and isoelectric focusing in order to characterize the nature of the glycans on 125I-labelled and immunoprecipitated Thy-1. Glycopeptides were prepared from Thy-1 obtained from cells labelled by periodate/boro[3H]hydride treatment. The glycopeptides were separated by affinity chromatography on concanavalin A-Sepharose and analysed by gel filtration. The results show that both types of cells possess Thy-1 molecules with three N-linked carbohydrate chains, of which one is of ‘high-mannose’ type and the other two of triantennary and biantennary ‘complex’ type. The ratio of triantennary/biantennary chains was decreased on Thy-1 of mature cells compared with that of immature cells, but instead more sialic acid was present on these chains. Deglycosylated Thy-1 appeared to be of the same size regardless of origin, indicating that only the carbohydrate moiety differs between Thy-1 molecules of the two cell types.

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Characterization of the N-linked high-mannose oligosaccharides of the insulin pro-receptor and mature insulin receptor subunits

Biochemical Journal ◽

10.1042/bj2390679 ◽

1986 ◽

Vol 239 (3) ◽

pp. 679-683 ◽

Cited By ~ 6

Author(s):

A McElduff ◽

A Watkinson ◽

J A Hedo ◽

P Gorden

Keyword(s):

Insulin Receptor ◽

Polyacrylamide Gel Electrophoresis ◽

Beta Subunits ◽

Relative Distribution ◽

Single Chain ◽

Complex Type ◽

Mannose Residue ◽

Predominant Species ◽

High Mannose

The insulin receptor is synthesized as a 190,000-Mr single-chain precursor that contains exclusively asparagine-N-linked high-mannose-type carbohydrate chains. In this study we have characterized the structure of the pro-receptor oligosaccharides. IM-9 lymphocytes were pulse-chase-labelled with [3H]mannose, and the insulin pro-receptor was isolated by immunoprecipitation and SDS/polyacrylamide-gel electrophoresis. The pro-receptor oligosaccharides were removed from the protein backbone with endoglycosidase H and analysed by h.p.l.c. Immediately after a [3H]mannose pulse the largest oligosaccharide found in the pro-receptor was Glc1Man9GlcNAc2; this structure represented only a small fraction (3%) of the total. The predominant oligosaccharides present in the pro-receptor were Man9GlcNAc2 (25%) and Man8GlcNAc2 (48%). Smaller oligosaccharides were also detected: Man7GlcNAc2 (18%), Man6GlcNAc2 (3%) and Man5GlcNAc2 (3%). The relative distribution of the different oligosaccharides did not change at 1, 2 or 3 h after the pulse with the exception of the rapid disappearance of the Glc1Man9GlcNAc2 component. The mature alpha- and beta-subunits of the insulin receptor are known to contain both high-mannose-type and complex-type oligosaccharides. We have also examined here the structure of the high-mannose chains of these subunits. The predominant species in the alpha-subunit was Man8GlcNAc2 whereas in the beta-subunit it was Man7GlcNAc2. These results demonstrate that most (approx. 75%) oligosaccharides of the insulin pro-receptor are chains of the type Man8GlcNAc2 or Man9GlcNAc2. Thus, assuming that a Glc3Man9GlcNAc2 species is transferred co-translationally, carbohydrate processing of the pro-receptor appears to be very rapid and limited to the removal of the three glucose residues and one mannose residue. Further mannose removal does not occur until the pro-receptor has been proteolytically cleaved. In addition, the degree of mannose trimming appears to be different in the alpha- and beta-subunits.

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High-mannose oligosaccharides from human Tamm-Horsfall glycoprotein

Bioscience Reports ◽

10.1007/bf01119663 ◽

1984 ◽

Vol 4 (3) ◽

pp. 269-274 ◽

Cited By ~ 41

Author(s):

Franca Serafini-Cessi ◽

Fabio Dall'olio ◽

Nadia Malagolini

Keyword(s):

Thin Layer ◽

Thin Layer Chromatography ◽

Gel Filtration ◽

Chromatographic Mobility ◽

Present Communication ◽

Complex Type ◽

High Mannose ◽

Layer Chromatography

The present communication reports the occurrence of high-mannose oligosaccharides on Tamm-Horsfall glycoprotein prepared from human pooled urine. The Pronase digest of the glycoprotein was fractionated by gel filtration and a high-mannose glycopeptide species was separated from complex-type glycopeptides. When high-mannose glycopeptides were digested with endo-β-N-acetylglucosaminidase H, followed by reduction with [3H]KBH4, three oligosaccharides were resolved by thin-layer chromatography. On the basis of chromatographic mobility and exoglycosidase digestions the composition Man7-, Man6-, and Man5-GlcNAc was assigned to the three oligosaccharides. Man6GlcNAc is by far the major component.

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Facile removal of high mannose structures prior to extracting complex type N-glycans from de-N-glycosylated peptides retained by C18 solid phase to allow more efficient glycomic mapping

PROTEOMICS ◽

10.1002/pmic.201300343 ◽

2013 ◽

Vol 14 (1) ◽

pp. 87-92 ◽

Cited By ~ 6

Author(s):

Chi-Hung Lin ◽

Chu-Wei Kuo ◽

Donald L. Jarvis ◽

Kay-Hooi Khoo

Keyword(s):

Solid Phase ◽

Complex Type ◽

High Mannose

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Synthesis and processing of molecules bearing thymus leukemia antigen.

Journal of Experimental Medicine ◽

10.1084/jem.150.4.777 ◽

1979 ◽

Vol 150 (4) ◽

pp. 777-791 ◽

Cited By ~ 35

Author(s):

E Rothenberg ◽

E A Boyse

Keyword(s):

Cell Surface ◽

Developmental Regulation ◽

Sodium Dodecyl ◽

Lymphoid Cells ◽

Complex Type ◽

Acidic Complex ◽

Synthesis And Processing ◽

Immune Precipitation ◽

High Mannose ◽

Leukemia Antigen

Thymus-leukemia (TL) antigens are expressed in murine lymphocytes under strict developmental regulation. To elucidate the molecular basis of TL expression, we have identified the molecular species that react with TL antiserum. At least three species can be resolved by metabolic radiolabeling of thymocytes and ASL1 leukemia cells, lysis, immune precipitation, and sodium dodecyl sulfate-polyacrylamide. After a brief incubation with [35S]methionine, the only radioactive molecule recognized by TL antiserum is a homogeneous species with an apparent Mr of 45,000 daltons. This molecule, 45K TL, includes high-mannose-type carbohydrate attached to a 45,000 dalton glycosidase-resistant backbone. In this form, 45K, it is never exposed on the cell surface. If pulse-labeled cells are further incubated with nonradioactive methionine before lysis, however, radioactivity disappears from the 45K TL species and appears in the slower migrating species 46K and 48K TL. Thus, 46K and 48K appear to represent products generated from the 45K TL precursor by posttranslational modification. These TL forms are displayed on the cell surface; they lack high-mannose carbohydrate but evidently include acidic complex-type carbohydrate. Normal thymocytes from Qa:Tla-negative mice lack not only the surface forms of TL but also the intracellular 45K TL form. Peripheral lymphoid cells of Qa:Tla-positive mice synthesize none of these TL species. But the TL antiserum, which contains Qa antibody, recognizes a distinct gene product in spleen and thymus of Qa-Tla-positive mice. In its pulse-labeled form, this molecule, which may represent Qa-1, has an apparent Mr of 44,000 daltons, and consists of a glycosidase-resistant polypeptide core of only 35,000 daltons linked to more high mannose carbohydrate than 45K TL.

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