Linear structure of the oligosaccharide chains in alpha1-protease inhibitor isolated from human plasma.

Two glycopeptides present in equal amounts were isolated from a pronase digest of alpha1-protease inhibitor of human plasma by gel filtration on Sephadex G-50 and chromatography on DEAE-cellulose. The carbohydrate side chains in both glycopeptides are linked through asparaginyl residues. The glycopeptides were digested sequentially with specific glycosidases; and after each step, the released sugars as well as the composition of the residual peptides were determined. The linear structures of these glycopeptides deduced from these data are shown below. Based on the total carbohydrate content of the intact protein and with these structural data, it is postulated that 4 oligosaccharide units are attached to 1 molecule of the protein; 2 of these were represented as in Equation 1, the other 2 as in Equation 2.     

A novel sulfated structure in the carbohydrate-protein linkage region isolated from porcine intestinal heparin.

A preparation of porcine stage 14 intestinal heparin, which contains Ser as a predominant amino acid, was used for isolation of the carbohydrate-protein linkage region of heparin. Two glycoserines were isolated in a molar ratio of 96:4 after an exhaustive digestion with a mixture of bacterial heparinase and heparitinases. Their structures were determined by composition analysis, heparitinase digestion, co-chromatography with an authentic glycoserine on high performance liquid chromatography, and by 500-MHz one- and two-dimensional 1H NMR spectroscopy. The structure of the major one is delta GlcA beta 1-3Gal beta 1-3Gal beta 1-4Xyl beta 1-O-Ser and that of the minor is delta GlcA beta 1-4GlcNAc(6-O-sulfate) alpha 1-4GlcA beta 1-3Gal beta 1-3Gal beta 1-4Xyl beta 1-O-Ser. The novel 6-O-sulfated GlcNAc residue was demonstrated to occur in the vicinity of the carbohydrate-protein linkage region. The Gal residues were nonsulfated, in contrast to the sulfated Gal structures recently discovered in the carbohydrate-protein linkage region of chondroitin sulfate proteoglycans. The structural features are discussed in relation to biosynthetic mechanisms of the heparin glycosaminoglycans.     

Identification of rat {alpha}1 macroglobulin as an inhibitor of rat Gal{beta}1-4GlcNAc {alpha}2-6 sialyltransferase

Rat serum was found to contain an inhibitor of pure     

Structural studies on sulfated oligosaccharides derived from the carbohydrate-protein linkage region of chondroitin sulfate proteoglycans of whale cartilage.

From the carbohydrate-protein linkage region of whale cartilage proteoglycans, which bear predominantly chondroitin 4-sulfate, one nonsulfated, two monosulfated and one disulfated hexasaccharide alditols were isolated after exhaustive digestions with Actinase E and chondroitinase ABC, and subsequent beta-elimination. Their structures were analyzed by chondroitinase ACII digestion in conjunction with HPLC and by 500-MHz 1H-NMR spectroscopy. The nonsulfated compound (A) had the following conventional structure: delta GlcA(beta 1-3)-GalNAc(beta 1-4)GlcA(beta 1-3)Gal(beta 1-4)Xylol, where GlcA, delta GlcA and GalNAc are glucuronic acid; 4,5-unsaturated glucuronic acid and 2-deoxy-2-N-acetylamino-D-galactose, respectively. The other compounds were sulfated derivatives of compound A. Two monosulfated compounds (B and C) had an ester sulfate on C4 or C6 of the GalNAc residue, respectively and the disulfated compound (D) had two ester sulfate groups, namely, one on C4 of the GalNAc and the other on C4 of the Gal residue substituted by GlcA. The molar ratio of A/B/C/D was 0.21:0.16:0.36:0.27. The compound containing Gal-4-O-sulfate was previously isolated by us in the form of a sulfated glycoserine [delta GlcA(beta 1-3)GalNAc(4-O- sulfate)(beta 1-4)GlcA(beta 1-3)Gal(4-O-sulfate)(beta 1-3)-Gal(beta 1- 4)Xyl beta 1-O-Ser] from the carbohydrate-protein linkage region of rat chondrosarcoma chondroitin-4-sulfate proteoglycans [Sugahara K., Yamashina, I., DeWaard, P., Van Halbeek, H. & Vliegenthart, J.F.G. (1988) J. Biol. Chem. 263, 10,168-10,174]. The discovery of this structure in the carbohydrate-protein linkage region of chondroitin 4-sulfate proteoglycans from nontumorous cartilage indicates that it is not a tumor-associated product but rather a physiological biosynthetic product since it represents a significant proportion. The biological significance of this structure is discussed in relation to glycosaminoglycan biosynthesis.     

The degradation of intravenously injected chondroitin 4-sulphate in the rat

The degradation of chondroitin 4-[(35)S]sulphate isolated from chick-embryo cartilage was studied in the rat by experiments on free-range animals, on wholly anaesthetized animals with ureter cannulae, by perfusion of isolated liver, by whole-body radioautography and by isolation of liver lysosomes. After injection into rats 68% of the radioactivity was recovered in the urine after 24h, approximately one-half of this being in the form of low-molecular-weight material, chiefly inorganic sulphate. Cannulation experiments demonstrated that the proportion of low-molecular-weight components excreted in the urine increased with time until, after 12h, virtually all was inorganic sulphate. Whole-body radioautography identified the liver as the major site of radioisotope accumulation after injection of labelled polysaccharide. Perfusion through isolated liver indicated that this organ has the ability to metabolize the polymer with the release of low-molecular-weight products, principally inorganic sulphate. Incubation of a lysosomal fraction prepared from rat liver after injection of chondroitin 4-[(35)S]sulphate gave rise to degradation products of low molecular weight, and experiments in vitro with rat liver lysosomes confirmed that these organelles are capable of the entire degradative process from chondroitin sulphate to free inorganic sulphate.     

{alpha}-Galactosyl (Gal{alpha}1-3Gal{beta}1-4GlcNAc-R) epitopes on human cells: synthesis of the epitope on human red cells by recombinant primate {alpha}1,3galactosyltransferase expressed in E.coli

Developing methods for in vitro synthesis of the carbohydratestructure Gal     

Reconstitution of human fetal hemoglobin from isolated alpha and gamma chains

The reconstitution of hemoglobin F from isolated alpha and gamma chains was studied. An equimolar amounts of the alpha and gamma chains were mixed and incubated in 10 mM potassium phosphate buffer, pH 7.0, at 25 degrees C. Formation of hemoglobin F in the mixture was measured by separating hemoglobins on a cation exchange HPLC. Time courses of the formation of Hb F were independent of the protein concentration and could be analyzed on an exponential process with a first-order rate constant of (2.0 +/- 0.4) x 10(-3) h-1. Under the experimental conditions the isolated gamma chain existed as tetramer dominantly. These results suggest that the overall reaction of the reconstitution of hemoglobin F is limited by the dissociation step of the self-associated gamma chain.     

The linkage of 4-O-methyl-L-galactose in the sulphated polysaccharide of Aeodes ulvoidea

Methyl 2-acetamido-5,6-di-O-benzyl-2-deoxy-β-d-glucofuranoside (11) was obtained in six steps from the known methyl 3-O-allyl-2-benzamido-2-deoxy-5,6-O-isopropylidene-β-d-glucofuranoside. Mild acid hydrolysis, followed by benzylation gave the 5,6-dibenzyl ether. The benzamido group was exchanged for an acetamido group by strong alkaline hydrolysis, followed by N-acetylation, and the allyl group was isomerized into a 1-propenyl group that was hydrolyzed with mercuric chloride. Treatment of 11 with l-α-chloropropionic acid and with diazomethabe gave methyl 2-acetamido-5,6-di-O-benzyl-2-deoxy-3-O-[d-1-(methoxycarbonyl)ethyl]-β-d-glucofuranoside which formed on mercaptolysis the internal ester 16, further converted into 2-acetamido-4-O-acetyl-5,6-di-O-benzyl-2-deoxy-3-O-[d-1-(methoxycarbonyl)ethyl]-d-glucose diethyl dithioacetal (18) by alkaline treatment followed by esterification with diazomethane and acetylation. Attempts to remove the O-acetyl group of the corresponding dimethyl acetal 20 with sodium methoxide in mild conditions were not successful.     

A new type of carbohydrate-protein linkage in a glycopeptide from normal human urine.

A glycopeptide, 3-O-beta-D-glucopyranosyl-alpha-L-fucopyranosyl-L-threonine, has been isolated from normal human urine. The glycopeptide was isolated by gel chromatography, preparative zone electrophoresis, paper chromatography, and high voltage electrophoresis. The average yield of the glycopeptide was in the range of 0.2 to 0.3 mg/liter of urine. Sugar analysis and amino acid analysis gave equimolar amounts of glucose, fucose, and threonine. Linkages and sequential order were established by methylation analysis of the glycopeptide after degradation of the amino acid residue with ninhydrin. The permethylated product was analyzed on gas liquid chromatography and mass spectrometry. Anomeric configuration was deduced from optical rotation.     

Detection by the polymerase chain reaction of two polymorphisms in exon 14 of the human inter-α-trypsin inhibitor heavy chain H1 gene

Two polymorphisms were detected within exon 14 of the inter-alpha-trypsin inhibitor heavy chain H1 (ITIH1) gene. The polymorphisms are detected by digesting the same 202-bp polymerase reaction product with the PstI and HphI restriction endonucleases. These gene polymorphisms lead to the change of two amino acids in the mature protein. The polymorphisms can be used for the analysis of 3p21 deletion in human carcinomas as well as to develop a better understanding of the protein polymorphism already described.     

Molecular mimicry in the recognition of glycosphingolipids by Gal{alpha}3Gal{beta}4GlcNAc{beta}-binding Clostridium difficile toxin A, human natural anti {alpha}-galactosyl IgG and the monoclonal antibody Gal-13: characterization of a binding-active human glycosphingolipid, non-identical with the animal receptor

Glycoconjugates with terminal Gal     

The inactivation of human plasma alpha 1-proteinase inhibitor by proteinases from Staphylococcus aureus

The interaction of three proteinases (seryl, cysteinyl, and metallo-) from Staphylococcus aureus with human plasma alpha 1-proteinase inhibitor has been investigated. As expected, none of the enzymes was inactivated by this protein, each, instead causing the conversion of the native inhibitor into an inactive form of decreased molecular weight. Amino-terminal sequence analysis indicated that inhibitor inactivation had occurred by peptide bond cleavage near the reactive center of this protein. When the inhibitor was modified by this treatment, it became resistant to both pH and temperature denaturation and, in contrast to the intact denatured protein, did not undergo further proteolytic degradation. This process of inactivation of alpha 1-proteinase inhibitor by pathogenic proteinases could result in a deregulation of its target enzyme, neutrophil elastase, and, therefore, may be important in the consumption of some plasma proteins by this enzyme during septicemia.     

Developmental regulation of {alpha}1,3-fucosyltransferase expression in CD34 positive progenitors and maturing myeloid cells isolated from normal human bone marrow

The adhesive interactions of hemopoietic cells within the bonemarrow regulate their distribution, growth, and development.Fucosylated structures, of which sialyl Lewis x has been mostextensively studied, are important ligands for selectins, butlittle is known about their function or regulation during normalhemopoietic development. We have studied     

Structure of the oligosaccharide chains in human alpha 1-protease inhibitor.

Two glycopeptides were obtained from alpha 1-protease inhibitor after extensive pronase digestion and chromatography on Bio-Gel P-10 and concanavalin A-Sepharose. these glycopeptides were characterized by compositional analysis and sequential exoglycosidase digestion followed at each step by methylation analysis. The partially methylated alditol acetates obtained were resolved by gas chromatography and identified by mass spectrometry. The proposes structures of the oligosaccharide moieties of the glycopeptides are given below. (formula: see text) The relative amounts of the two glycopeptides isolated from concanavalin A-Sepharose suggest that each protein molecule contains four carbohydrate chains; one large chain (A) and three small chains (B).     

The primacy of affinity over clustering in regulation of adhesiveness of the integrin {alpha}L{beta}2

Dynamic regulation of integrin adhesiveness is required for immune cell-cell interactions and leukocyte migration. Here, we investigate the relationship between cell adhesion and integrin microclustering as measured by fluorescence resonance energy transfer, and macroclustering as measured by high resolution fluorescence microscopy. Stimuli that activate adhesion through leukocyte function-associated molecule-1 (LFA-1) failed to alter clustering of LFA-1 in the absence of ligand. Binding of monomeric intercellular adhesion molecule-1 (ICAM-1) induced profound changes in the conformation of LFA-1 but did not alter clustering, whereas binding of ICAM-1 oligomers induced significant microclustering. Increased diffusivity in the membrane by cytoskeleton-disrupting agents was sufficient to drive adhesion in the absence of affinity modulation and was associated with a greater accumulation of LFA-1 to the zone of adhesion, but redistribution did not precede cell adhesion. Disruption of conformational communication within the extracellular domain of LFA-1 blocked adhesion stimulated by affinity-modulating agents, but not adhesion stimulated by cytoskeleton-disrupting agents. Thus, LFA-1 clustering does not precede ligand binding, and instead functions in adhesion strengthening after binding to multivalent ligands.     

The structures of N- and O-glycosidic carbohydrate chains of a chondroitin sulfate proteoglycan isolated from the media of the human aorta

A large Mr chondroitin sulfate proteoglycan was extracted from the media of human aorta under dissociative conditions and purified by density-gradient centrifugation, ion-exchange chromatography, and gel filtration chromatography. Removal of a contaminating dermatan sulfate proteoglycan was accomplished by reduction, alkylation and rechromatography on the gel filtration column. After chondroitinase ABC treatment, the proteoglycan core was separated from a residual heparan sulfate proteoglycan by a third gel filtration chromatography step. As assessed by radioimmunoassay, the isolated proteoglycan core was free of link protein, but possessed epitopes that were recognized by antisera against the hyaluronic acid binding region of bovine cartilage proteoglycan as well as those that were weakly recognized by anti-keratan sulfate antisera. Following beta-elimination of the protein core, the liberated low Mr oligosaccharides were partially resolved by Sephadex G-50 chromatography, and their primary structure was determined by 500-MHz1H NMR spectroscopy in combination with compositional sugar analysis. The N-glycosidic carbohydrate chains, which were obtained as glycopeptides, were all biantennary glycans containing NeuAc and Fuc; microheterogeneity in the NeuAc----Gal linkage was detected in one of the branches. The N-glycosidic glycans have the following overall structure: (Formula: see text). The majority of the O-glycosidic carbohydrate chains bound to the protein core were found to be of the mucin type. They were obtained as glycopeptides and oligosaccharide alditols, and possessed the following structures: NeuAc alpha(2----3)Gal beta(1----3)GalNAc-ol, [NeuAc alpha(2----3)Gal beta(1----3)[NeuAc alpha(2----6)]GalNAc-ol, and NeuAc alpha-(2----3) Gal beta(1----3)[NeuAc alpha(2----3)Gal beta(1----4)GlcNAc beta(1----6)] GalNAc-ol. The remainder of the O-glycosidic carbohydrate chains bound to the isolated proteoglycan were the hexasaccharide link regions of the chondroitin sulfate chains that remained after chondroitinase ABC treatment of the native molecule. These latter glycans, which were obtained as oligosaccharide alditols, had the following structure (with GalNAc free of sulfate or containing sulfate bound at either C-4 or C-6): delta 4,5GlcUA beta(1----3)GalNAc beta(1----4)GlcUA beta(1----3)Gal beta(1----3)Gal beta(1----4)Xyl-ol.