Blood-group-(A + H) complex fucolipids of hog gastric mucosa

Blood group substances as potential therapeutic agents for the prevention and treatment of infection with noroviruses proving novel binding patterns in human tissues

Blood group-related glycans determining ABO and Lewis blood groups are known to function as attachment factors for most of the norovirus (NoV) strains. To identify binding specificity of each NoV, recombinant norovirus-like particles (VLPs) and human saliva samples with different ABO, Lewis phenotypes and secretor status have been commonly applied. When binding specificities of VLPs prepared from 16 different genotypes of NoVs in GI and GII genogroups were characterized in samples of human gastric mucosa compared to human saliva based on blood group phenotypes, considerable differences were observed for several strains. Novel binding specificities determined by an ELISA using preparations from human gastric mucosa were also ascertained by immunohistochemical analyses using human jejunal mucosa, widely believed to be susceptible to NoV infection. Further, A, B and O(H) blood group substances prepared from porcine and squid tissues were found to be effective for preventing ABO blood group-specific binding of VLPs to both saliva and mucosa samples. Therefore, these blood group substances might have potential for the prevention and treatment of NoV infection.

Systematic analysis of glycosphingolipids in the human gastrointestinal tract: enrichment of sulfatides with hydroxylated longer-chain fatty acids in the gastric and duodenal mucosa

The composition of the glycosphingolipids of the human gastrointestinal tract was studied. The major neutral glycosphingolipids were ceramide monohexosides (e.g., GalCer, GlcCer), LacCer, Gb3Cer, Gb4Cer and more polar ones with more than four sugars, whereas neither Gg3Cer nor Gg4Cer were present. The acidic glycosphingolipids consisted of sulfatides and gangliosides such as GM3, GM1, GD3 and GD1a. Also a large amount of sulfatides was found in the gastric mucosa and duodenum. The concentrations of sulfatides in the fundic mucosa, antral mucosa and duodenum amounted to 416.0, 933.8 and 682.9 nmol/g of dry weight, respectively, exceeding those in the gastric mucosa and kidney of other mammals. The major molecular species of the sulfatides were identified as I3SO3-GalCer with hydroxylated longer-chain fatty acids based on the analyses by gas-liquid chromatography and negative ion fast-atom bombardment mass spectrometry. In contrast, gangliosides in these regions showed a tendency to be lower than sulfatides, and the molar ratios of sulfatides to gangliosides were about 2.0, whereas those in other parts were less than 0.5. A high content of sulfatides in the gastric and duodenal mucosa, where mucosa is easily insulted by acid, pepsin and bile salts, may be closely related to their roles in mucosal protection.

D-galactosyltransferase and its endogenous substrates in chick embryo fibroblasts transformed by Rous sarcoma virus

UDP-D-galactose: 2-acetamido-2-deoxy-beta-D-glucopyranosyl 4-beta-D-galactosyltransferase (GalTase) activity was purified, from primary chick embryo fibroblast (CEF) transformed by a temperature-sensitive, Rous sarcoma virus mutant (CEF-RSV), by chromatography on an affinity resin prepared with monoclonal antibodies to GalTase. Cellular glycopeptides from CEF, as well as CEF-RSV, maintained at permissive (37 degrees) [CEF-RSF (37 degrees)] and nonpermissive temperatures (41 degrees) [CEF-RSV (41 degrees)], were solubilized and galactosylated in vitro by incubation with purified GalTase substrates, composed of at least six discrete complex glycopeptides having bi- to tetra-antennary structures. The glycopeptides isolated from transformed cells, CEF-RSV (37 degrees), included the six types observed in nontransformed cells, but demonstrated alterations in their relative amounts, including an increase in the content of a glycopeptide containing 3 mannose and 4 glucosamine residues. Furthermore, two additional complex-type glycopeptides were isolated from CEF- but demonstrated alterations in their relative amounts, including an increase in the content of a glycopeptide containing 3 mannose and 4 glucosamine residues. Furthermore, two additional complex type glycopeptides were isolated from CEF-RSV (37 degrees). These malignant transformation-related glycopeptides were partially characterized and found to represent tri- and tetra-antennary complex glycopeptides. Endogenous galactosylation appeared to have occurred in a branched, nonspecific manner in these transformed cell-derived glycopeptides. These findings indicate that transformed cells may contain a greater preponderance of more highly branched, complex oligosaccharides which are randomly galactosylated at nonreducing termini by cellular GalTase.

Identification and isolation of Lewis blood group antigens from human saliva using monoclonal antibodies

Solid-phase radioimmunoassay, polyacrylamide gel electrophoresis and thin-layer chromatography were used to compare, identify, and characterize the Lewis antigens from human salivas, using monoclonal antibodies directed to the Lea and Leb determinants. Sialylated Lea glycolipid was detected in saliva from individuals with Le(a+ b+) and Le(a+ b-) phenotypes. Immunoaffinity chromatography of the saliva from individuals with different phenotypes revealed a glycoprotein of molecular weight greater than 200 kD bearing the Lewis antigenic determinants.

Structure and blood-group I activity of poly(glycosyl)-ceramides

Nitrous acid deamination of N-deacetylated blood-group O poly(glycosyl)ceramides resulted in a complete degradation of the glycolipids to give O-beta-D-galactopyranosyl-(1 leads to 4)-2,5-anhydro-D-mannose, O-alpha-L-fucopyranosyl-(1 leads to 2)-O-beta-D-galactopyranosyl-(1 leads to 4)-2,5-anhydro-D-mannose, lactosylceramide, and small proportions of free 2,5-anhydro-D-mannose. A series of straight-chain glycolipids containing up to six glycosyl residues and comprising alternating 3-O-substituted D-galactosyl and 4-O-substituted 2-acetamido-2-deoxy-D-glucosyl residues was isolated from partial acid hydrolyzates of poly(glycosyl)ceramides. Branching points of 3,6-di-O-substituted and 6-O-substituted D-galactosyl residues were observed only in fractions containing more than six glycosyl residues. Sequential periodate oxidation of poly(glycosyl)ceramides gradually eliminated the branching points. This elimination was not complete, even after four cycles of degradation. The ability of poly(glycosyl)ceramides to precipitate with anti-I serums disappeared after two cycles of degradation. These results suggest a general structure for poly(glycosyl)ceramides. I blood-group activity of the glycolipids would depend on the periodical arrangement of branched side-chains.

A new method for the isolation of the simple and highly complex glycosphingolipids from animal tissue

The most widely used methods for the extraction of glycosphingolipids from animal tissues are based on the use of chloroform/methanol mixtures. These methods, although suitable for a great majority of lipids, fail to remove highly complex glycosphingolipids. Reported here is a method for the isolation of the entire population of glycosphingolipids by means of a gradual degradation of tissue components and enrichment in carbohydrate conjugates resistant to alkali and proteases. Fresh gastric mucosa was homogenized and treated with alkali (beta-elimination) and RNAase and DNAase to decrease the viscosity of the homogenate, followed by pronase digestion. Each treatment was completed by exhaustive dialysis against distilled water. The resultant tissue digest was partitioned with chloroform/methanol (2:1) to remove simple glycosphingolipids. The aqueous portion of the system was adjusted to 1.0% with Zwittergent TM- 314 and solubilized for 24 h by mixing. Thus, prepared sample subjected to Bio-Gel P60 column chromatography afforded five fractions. Of these, three were free of protein and contained carbohydrates, fatty acids and sphingosine. Further fractionation on Bio-Gel P 10 and P6 columns followed by thin-layer chromatography afforded homogeneous components with all the characteristics of highly complex glycosphingolipids.

Characterization of the sulfated monosialosyltriglycosylceramide from bovine gastric mucosa

A sulfated monosialosyltriglycosylceramide was isolated from the lipid extract of bovine gastric mucosa in a yield of 2.52 microM/kg of wet tissue. The isolation procedure involved extraction of lipids with 0.4 M sodium acetate in methanol/chloroform/water, alkaline methanolysis, column fractionation on DEAE-Sephadex and silicic acid, and thin-layer chromatography. Based on the results of partial acid hydrolysis, sequential degradation with specific glycosidases, periodate oxidation, and methylation analysis of the native and partially degraded compound, the structure of this glycolipid is proposed to be: GalNAc beta 1 leads to 4(SO3H leads to 8Sia alpha 2 leads to 3)Gal beta 1 leads to 4Glc1 leads to 1Cer. The sialic acid of this glycolipid consisted of N-acetylneuraminic acid and N-glycoloylneuraminic acid, with the former being predominant component (71%) of the mixture.

Complex fucolipids of hog gastric mucosa. Structure of the ceramide eikosahexoside

The structure of a complex fucolipid from hog gastric mucosa containing twenty sugar residues and exhibiting blood-group (A + H) activity has been investigated. Based on the results of immunological assays, partial acid hydrolysis, sequential degradation with specific exoglycosidases, oxidation with periodate and chromium trioxide, and permethylation analysis, we suggest that the carbohydrate chain of this fucolipid contains four termini. One of the termini bears beta Gal1 leads to 4 beta GlcNAc disaccharide, two bear blood-group A determinant and one bears H determinant. Two of the branches, terminated by beta Gal1 leads to 4 beta GlcNAc and blood-group A determinant, and two terminated by blood-group A and H determinants, are linked through beta Gal1 leads to 4 beta GlcNAc1 leads to 3/6 and beta Gal1 leads to 4 beta GlcNAc1 leads to 4 beta GlcNAc1 leads to 3/6 to the galactose residue adjacent to glucosylceramide core.

Sulfated trihexosylceramide from gastric mucosa containing N-acetylglucosamine

A new sulfated glycosphingolipid containing N-acetylglucosamine has been isolated from hog gastric mucosa by extraction with sodium acetate. Based on the results of partial acid hydrolysis, sequential degradation with specific glycosidases, and methylation analysis of the native and desulfated compound, the structure of this glycolipid is proposed to be: SO3H(leads to 6)GlcNAc-(beta 1 leads to 3)Gal(beta 1 leads to 4)Glc(1 leads to 1)Cer(GlcNAc, N-acetylglucosamine; Cer, ceramide).

The neutral glyceroglucolipids of alveolar lavage from rabbit

Three individual glycolipids have been isolated from the neutral lipid fraction of rabbit alveolar lavage. All three glycolipids contained glucose, glyceryl monoethers and fatty acids, and differed from each other primarily with respect to the number of glucose residues. The structures of these glycolipids were identified by mild alkaline methanolysis, oxidation with periodate and CrO3, and methylation studies, as: Glc(alpha 1 leads to 3)-1,(3)-O-alkyl-2-O-acylglycerol, Glc(alpha 1 leads to 6)Glc(alpha 1 leads to 6)Glc(alpha 1 leads to 6)Glc(alpha 1 lead to 6)Glc(alpha 1 leads to 3)-1,(3)-O-alkyl-2-O-acyglycerol, and Glc(alpha 1 leads to 6)Glc(alpha 1 leads to 6)Glc(alpha 1 leads to 6)Glc(alpha 1 leads to 6)Glc(alpha 1 leads to 6)Glc(alpha 1 leads to 3)-l,(3)-O-alkyl-2-O-acylglycerol.

Isolation and characterization of a sulfated glyceroglucolipid from alveolar lavage of rabbit

A major acidic glycolipid of the rabbit alveolar lavage has been isolated and characterized. The isolation procedure involved extraction of lipids, column fractionation on DEAE-Sephadex and silicic acid, and thin-layer chromatography. Chemical analysis of the glycolipid revealed the presence of glucose, fatty acids, glycerol mono-ethers and sulfate. By partial acid and alkaline methanolysis, oxidation with periodate and chromium trioxide, and methylation analysis of the native and desulfated compound, the structure of this glycolipid is proposed to be: SO3H-6Glc alpha 1 leads to 6Glc alpha 1 leads to 6Glc alpha 1 leads to 6Glc alpha 1 leads to 3-1,(3)-O-alkyl-2-0-acylglycerol.