High-frequency antigens of human erythrocyte membrane sialoglycoproteins. VI. Monoclonal antibodies reacting with the N-terminal domain of glycophorin C

The epitopes of seven mouse monoclonal antibodies which are related to the Gerbich blood group system were investigated. BRIC4, BRIC10, GERO and MR4-130 have been published earlier. The three others (APO1, APO2, APO3) were prepared by immunization with normal human erythrocytes and detected by screening with red blood cells that lack glycophorins C and D. Using immunoblotting and hemagglutination inhibition assays, the epitopes for all antibodies were found to be located on glycophorin C. Hemagglutination inhibition experiments with peptides and chemically modified glycophorins revealed that MR4-130, GERO, BRIC10 and APO2 are all directed against identical or rather similar epitopes comprising the N-terminal three or four residues of glycophorin C. Modification of the N-terminal methionine residue or release of sialic acid attached to oligosaccharide(s) at the third and/or fourth position(s) destroyed all these antigens. The epitope of APO3 was found to comprise glutamic acid17 and/or aspartic acid19 as well as the oligosaccharide attached to serine15. The antigens of BRIC4 and APO1 were found to be located within the residues 2-21 and to comprise sialic acid attached to O-glycosidically linked oligosaccharide(s). However, these epitopes could not be elucidated further. Radio-iodinated MR4-130 bound to 39,000 receptor sites per normal red blood cell. Binding of the labelled antibody was completely inhibited by unlabelled MR4-130, BRIC10, APO2 and GERO. APO1 caused partial inhibition suggesting that it is directed against an adjacent site. BRIC4, APO3 and anti-Ge3 did not inhibit the binding of labelled MR4-130 to any significant extent.     

ABH blood group antigens in O-glycans of human glycophorin A

The major O-linked oligosaccharide structures attached to human glycophorin A (GPA) have been extensively characterized previously. Our own recent findings, obtained by immunochemical methods, suggested the presence of blood group A and B determinants in O-glycans of human glycophorin originating from blood group A or B erythrocytes, respectively. Here, we elucidate the structure of O-glycans, isolated from GPA of blood group A, B, and O individuals by reductive beta-elimination, carrying A, B or H blood group epitopes, respectively. Structural studies based on nanoflow electrospray-ionization tandem mass spectrometry and earlier reported data on the carbohydrate moiety of GPA and ABH antigens allowed us to conclude that these blood group epitopes are elongations of the beta-GlcNAc branch attached to C-6 of the reducing GalNAc. The galactose linked to C-3 of the reducing GalNAc carries NeuAcalpha2-3 linked residue. Identified here O-glycans were found in low amounts, their content estimated at about one percent of all GPA O-glycans. These O-glycans with type-2 core, carrying the blood group A, B or H determinants, have not been identified in GPA so far. Our results demonstrate the efficacy of nanoESI MS/MS in detecting minor oligosaccharide components present in a mixture with much more abundant structures.     

Membrane glycophorins in Sta blood group erythrocytes

Structural and immunochemical studies of glycophorins isolated from erythrocytes of an individual homozygous for the M Sta blood group phenotype are described. Reactivities with specific monoclonal antibodies indicated that two major M and N glycophorins were present. The M and N Sta glycophorins were resolved by Lens culinaris lectin affinity chromatography. The N species was not held on the lectin but the M species, like control alpha glycophorins, was retained and could be eluted with alpha-methylmannoside. The two proteins were present in almost equimolar amounts. Studies of the CNBr fragments provided evidence that the structure of M Sta glycophorin is the same as that of the usual M alpha glycophorin but that the N Sta glycophorin is a variant. The amino-terminal octapeptides of the M and N species were similar in amino acid and carbohydrate composition to those isolated, respectively, from M and N alpha glycophorins. The studies focused on CNBr glycopeptide B that, in control alpha glycophorins, extends from amino acid residues 9 to 81. The fragment from the M species exhibited properties identical to those of the corresponding fragment of control alpha glycophorins in terms of size, chromatographic behavior, amino acid and carbohydrate contents and compositions, the presence of O-glycosidically linked saccharides and a single Asn-linked carbohydrate unit. The structures of the O-linked units were inferred experimentally to be NeuAc(alpha 2,3)Gal-(beta 1,3)GalNAc and NeuAc(alpha 2,3)Gal(beta 1,3) [NeuAc(alpha 2,6)]GalNAc, present in a ratio similar to that found in controls; and the Asn-linked unit also appeared to be as in the control. The tryptic glycopeptide pattern of the M Sta glycophorin CNBr fragment B was identical to the pattern of the corresponding control fragment, and the composition of the tryptic peptides suggested sequence identity with the control fragment. In contrast, the N Sta glycophorin yielded two CNBr glycopeptides B; both contained fewer amino acid residues and virtually lacked Man and GlcNAc, indicating the absence of the Asn-linked carbohydrate. The much decreased levels of these carbohydrates in the intact N protein, corroborated the latter finding. The O-glycosidic saccharides appeared similar to those found in control alpha glycophorins. However, the tryptic glycopeptide pattern of the variant differed from control M or N alpha glycophorins, suggesting a deletion of a large segment of the molecule near residues 40-61 and/or a substitution of methionine for a residue upstream from residue 40.(ABSTRACT TRUNCATED AT 400 WORDS)     

Structural analysis of the major human erythrocyte membrane sialoglycoprotein from Miltenberger class VII cells

The major human erythrocyte membrane sialoglycoprotein (glycophorin A or MN glycoprotein) was purified from the red blood cells of an individual, homozygous for the Mi-VII gene in the Miltenberger subsystem of the MNSs blood-group system. The complete structure of a tryptic peptide comprising the residues 40-61 of glycophorin A was deduced from manual sequence analyses. The Mi-VII-specific glycophorin A was shown to exhibit an arginine----threonine and a tyrosine----serine exchange at the positions 49 and 52 respectively. The threonine-49 residue was found to be glycosylated. Inhibition assays demonstrated that one of the Mi-VII-specific antigen determinants (Anek) is located within the residues 40-61 of glycophorin A and comprises sialic acid residue(s) attached to O-glycosidically linked oligosaccharide(s). Our data contribute to an understanding of the Miltenberger system and provide an explanation at the molecular level for the previous finding that the erythrocytes from the Mi-VII homozygote lack a high-frequency antigen (EnaKT), located within the residues 46-56 of normal glycophorin A.     

Altered membrane sialoglycoproteins in human erythrocytes lacking the Gerbich blood group antigens

The sialoglycoproteins (glycophorins) in human red cell membranes of rare individuals lacking totally (Ge-1,-2,-3 phenotype) or partially (Ge-1,-2,3 phenotype) the Gerbich (Ge) blood group antigens and two Ge-1,-2,-3 heterozygotes were studied by dodecylsulfate polyacrylamide gel electrophoretic techniques. Two sialoglycoproteins (components D and E) were not detectable in the membranes from the homozygotes and found to be decreased by about 50% in those from the heterozygotes. Ge--1,-2,-3 and Ge-1,-2,3 cells were found to contain a 'new' component (mol. masses about 29 and 30 kDa, respectively) possibly representing a D/E hybrid molecule. This sialoglycoprotein was not detectable in membranes from the Ge-1,-2,-3 heterozygotes, suggesting that the Ge-1,-2,-3 phenotype may be caused by at least two different alleles at the Ge blood group antigen locus. Hemagglutination or hemagglutination inhibition tests involving anti-Ge 1,2,3 and -Ge 1,2 as well as native and enzyme-treated normal red cells (phenotype Ge 1,2,3) or membrane and sialoglycoprotein fractions from normal erythrocytes indicate that the receptors of these sera are located within the glycosylated domain(s) of the D and/or E sialoglycoprotein(s). Our data suggest that the Ge locus encodes the polypeptide sequences of the D and E sialoglycoproteins.     

Gerbich blood group deficiency of the Ge:-1,-2,-3 and Ge:-1,-2,3 types. Immunochemical study and genomic analysis with cDNA probes

Human erythrocytes carry several transmembrane glycoproteins, among which the two minor species associated with the blood group Gerbich (Ge) antigens, GP C and GP D, play pivotal role since they interact with the membrane cytoskeleton and contribute to maintain the normal red cell shape. On the red cells from two categories of homozygous donors lacking the Ge determinants (Ge:-1,-2,-3 and Ge:-1,-2,3), GP C and GP D are missing but instead there is a new glycoprotein, easily detected by SDS/polyacrylamide gel electrophoresis, which exhibits some properties shared by GP C and GP D. This was shown by immunochemical analyses with a murine monoclonal antibody, extraction of the glycoproteins by organic solvents and binding studies with the 125I-labelled Lens culinaris lectin. The red cells from obligate heterozygotes for the Ge:-1,-2,-3 condition also carry this new glycoprotein component but in a much lesser amount than expected on the basis of one gene dose response. Using a cDNA probe containing the coding sequence of human GP C and the entire 3' untranslated region of its mRNA, we have demonstrated by Southern analyses that the Ge:-1,-2,-3 and the Ge:-1,-2,3 conditions are associated with a constant 3-kbp deletion within the GP C gene. Similar studies indicated that this gene is present as a unique copy per haploid genome of Ge-positive control donors (Ge:1,2,3). To account for these data and for the glycoprotein profile of Ge-negative erythrocytes, it is proposed that a unique Gerbich gene encodes for GP C and GP D, either by alternative RNA splicing or by different post-translational events, and that, following a 3-kbp deletion within this gene, a new glycoprotein having properties common to GP C and GP D can be produced.     

High-frequency antigens of human erythrocyte membrane sialoglycoproteins, IV. Molecular properties of the U antigen

The nature of the common erythrocyte antigen U, that is absent from S-s-U-cells, which lack glycophorin B (Ss sialoglycoprotein), was investigated using six different antisera. The molecular features of a U-like antigen (Duclos), detected by a hitherto unique serum, were also studied. The U and Duclos antigens are complex in that they exhibit relationships with the MNSs and Rh blood group systems. Various fractionation, cleavage, or modification products of normal erythrocyte membranes were used in hemagglutination inhibition assays. Both, the U and Duclos antigens were found to represent labile structures that require lipids, at least for optimum expression of antigen activity. The antigens could be solubilized using conditions of Triton X-100 extraction that release glycophorin B, but solubilize the Rh antigens only to a small extent. Anti-U and anti-Duclos were also inhibited, albeit weakly, by glycophorin B-containing fractions obtained by chromatographic separation of Triton X-100 extracts. The residues approx. 33-39 of glycophorin B represent essential parts of the U antigen, as judged from proteolytic digestion and chemical modification. Conversely, the expression of Duclos activity seems to require a region of glycophorin B (C-terminal of the positions approx. 34-36) that could not be cleaved by various proteinases. Data obtained with anti-Duclos have to be interpreted with caution, since there is evidence that this serum might contain a mixture of antibodies.     

Mammalian sialyltransferase ST3Gal-II: its exchange sialylation catalytic properties allow labeling of sialyl residues in mucin-type sialylated glycoproteins and specific gangliosides

While glycosyltransferases are known to display unidirectional enzymatic activity, recent studies suggest that some can also catalyze readily reversible reactions. Recently, we found that mammalian sialyltransferase ST3Gal-II can catalyze the formation of CMP-NeuAc from 5'-CMP in the presence of a donor containing the NeuAcα2,3Galβ1,3GalNAc unit [Chandrasekaran, E. V., et al. (2008) Biochemistry 47, 320-330]. This study shows by using [9-(3)H]- or [(14)C]sialyl mucin core 2 compounds that ST3Gal-II exchanges sialyl residues between CMP-NeuAc and the NeuAcα2,3Galβ1,3GalNAc unit and also radiolabels sialyl residues in gangliosides GD1a and GT1b, but not GM1. Exchange sialylation proceeds with relative ease, which is evident from the following. (a) Radiolabeleling of fetuin was ~2-fold stronger than that of asialo fetuin when CMP- [9-(3)H]NeuAc was generated in situ from 5'-CMP and [9-(3)H]NeuAcα2,3Galβ1,3GalNAcβ1,3Galα-O-Me by ST3Gal-II. (b) ST3Gal-II exchanged radiolabels between [(14)C]sialyl fetuin and [9-(3)H]NeuAcα2,3Galβ1,3GalNAcβ1,3Galα-O-Me by generating CMP-[(14)C]- and -[9-(3)H]NeuAc through 5'-CMP; only 20.3% (14)C and 28.0% (3)H remained with the parent compounds after the sialyl exchange. The [9-(3)H]sialyl-tagged MN glycophorin A, human chorionic gonadotropin β subunit, GlyCAM-1, CD43, fetuin, porcine Cowper's gland mucin, bovine casein macroglycopeptide, human placental glycoproteins, and haptoglobin were analyzed by using Pronase digestion, mild alkaline borohydride treatment, Biogel P6, lectin agarose, and silica gel thin layer chromatography. Sulfated and sialylated O-glycans were found in GlyCAM-1 and human placental glycoproteins. This technique has the potential to serve as an important tool as it provides a natural tag for the chemical and functional characterization of O-glycan-bearing glycoproteins.     

Developmental changes of C-series polysialogangliosides in chick brains revealed by mouse monoclonal antibodies M6704 and M7103 with different epitope specificities

We have established many mouse monoclonal antibodies detecting developmentally regulated antigens in chicken embryonic neural tissues of the otic vesicles and neural tube by immunizing mice with the membrane fraction of the neural tube and somite prepared from 3-d chick embryos. Among them, three monoclonal antibodies (MAbs) M6703, M6704, and M7103 were shown to react with the gangliosides isolated from chicken embryonic brains. The precise specificity of the antibodies was determined mainly by enzyme-immunostaining on thin layer plates. MAbs M6703 and M6704 bound to C-series polysialogangliosides including GT3, GT2, GT1c, GQ1c, and GP1c isolated from cod fish brains, but never to A-series, B-series, or X-series gangliosides. On the other hand, MAb M7103 antibody has a rather narrow specificity, reacting with GT1c, GQ1c, and GP1c, but not with ganglioside GT3. This indicates that the epitopes defined by these two MAbs are not with ganglioside GT3. This indicates that the epitopes defined by these two MAbs are different from each other. MAbs M6703 and M6704 recognize a trisialosyl residue, NeuAc alpha 2-8NeuAc alpha 2-8NeuAc alpha 2-3, while M7103 requires both a trisialosyl residue and the gangliotetraosy backbone structure for binding. As compared to similar MAbs which have been reported in the literature. M6703 and M6704 are unique in that they react equally with all of the C-series gangliosides and belong to the IgG3 subclass.(ABSTRACT TRUNCATED AT 250 WORDS)     

The structures of the serine-linked sugar chains on human chorionic gonadotropin

The human chorionic gonadotropin beta-subunit tryptic COOH-terminal peptide (residues 123-145) which contains 3 serine-linked sugar chains was isolated. The sugar chains were cleaved by beta-elimination and then separated by gel filtration. The peaks were pooled and their compositions determined. The products of serial glycosidase digestion and periodate oxidation of the intact glycopeptide were also characterized. Of the serine-linked sugar chains, 13% were the hexasaccharide NeuAc alpha 2,3 Gal beta 1,3 (NeuAc alpha 2,3 Gal beta 1,4 GlcNAc beta 1,6) GalNAc, 34% the tetrasaccharide NeuAc alpha 2,3 Gal beta 1,3 (NeuAc alpha 2,6) GalNAc, 43% the trisaccharide NeuAc alpha 2,3 Gal beta 1,3 GalNAc and 10% the disaccharide NeuAc alpha 2,6 GalNAc.     

The hemagglutinins of the human influenza viruses A and B recognize different receptor microdomains

A cryptically I-active sialylglycoprotein (glycoprotein 2) isolated from bovine erythrocyte membranes as Sendai virus receptor (Suzuki, Y., Suzuki, T. and Matsumoto, M. (1983) J. Biochem. 93, 1621-1633) contains N-glycolylneuraminic acid (NeuGc) as its predominate sialic acid and exhibits poor receptor activity for a variety of influenza viruses. Enzymatic modification of asialoglycoprotein-2 to contain N-acetylneuraminic acid (NeuAc) in the NeuAc alpha 2-3Gal and NeuAc alpha 2-6Gal sequences using specific sialyltransferase resulted in the appearance of receptor activity toward human influenza viruses A and B. The biological responsiveness chicken erythrocytes treated with sialidase and then reconstituted with derivatized glycoprotein 2 showed considerable recovery to influenza virus hemagglutinin-mediated agglutination, low-pH fusion and hemolysis. Specific hemagglutination inhibition activity of derivatized glycoprotein 2 was 5-16-times higher than that of human glycophorin. A/PR/8/34 (H1N1) virus preferentially recognized derivatized glycoprotein 2 containing NeuAc alpha 2-3Gal sequence over that containing NeuAc alpha 2-6Gal while the specificity of A/Aichi/2/68 (H3N2) for the sialyl linkages was reversed. B/Lee virus recognized both sequences almost equally. The biological responsiveness to the viruses of the erythrocytes labeled with the derivatized glycoprotein 2 containing NeuGc was considerably lower than that of derivatized glycoprotein 2 containing NeuAc. The results demonstrate that the hemagglutinins of human isolates of influenza viruses A and B differ in the recognition of microdomains (NeuAc, NeuGc) of the receptors for binding and fusion activities in viral penetration and the sequence to which sialic acid (SA) is attached (SA alpha 2-3Gal, SA alpha 2-6Gal). Inner I-active neolacto-series type II sugar chains may be important in revealing the receptor activity toward the hemagglutinin of both human influenza viruses A and B.     

A B72.3 second-generation-monoclonal antibody (CC49) defines the mucin-carried carbohydrate epitope Gal beta(1-3) [NeuAc alpha(2-6)]GalNAc

Mucus glycoproteins from bovine seminal plasma were demonstrated to express the MAbs CC49- and B72.3-defined epitopes on TAG 72 antigen. Inhibition studies with reductively cleaved mucin O-glycans from bovine seminal plasma and submaxillary glands revealed that CC49 binds specifically to a core-type sialyl-oligosaccharide alditol (fraction 2c), which could be defined with regard to its primary structure by FAB- and EI-mass spectrometry combined with methylation analysis: (formula; see text) Structurally related alditols NeuAc alpha(2-6)-GalNAc-ol, Gal beta(1-3)GalNAc-ol, NeuAc alpha(2-3)-Gal beta(1-3) [NeuAc alpha(2-6)] GalNAc-ol, GlcNAc beta(1-3) [NeuAc alpha(2-6)] GalNAc-ol or NeuAc alpha(2-3) Gal beta(1-3)GalNAc-ol were not inhibitory.     

ABH blood group antigens in N-glycan of human glycophorin A

We previously showed that a small proportion of the O-linked oligosaccharide chains of human glycophorin A (GPA) contains blood group A, B or H antigens, relevant to the ABO phenotype of the donor. The structures of these minor O-glycans have been established (Podbielska et al. (2004) [20]). By the use of immunochemical methods we obtained results indicating that ABH blood group epitopes are also present in N-glycan of human GPA (Podbielska and Krotkiewski (2000) [22]). In the present paper we report a detailed analysis of GPA N-glycans using nanoflow electrospray ionization tandem mass spectrometry. N-glycans containing A-, B- and H-related sequences were identified in GPA preparations obtained from erythrocytes of blood group A, B and O donors, respectively. The ABH blood group epitopes are present on one antenna of the N-glycan, whereas a known sialylated sequence NeuAcα2-6Galβ1-4GlcNAc- occurs on the other antenna and other details are in agreement with the known major structure of the GPA N-glycan. In the bulk of the biantennary sialylated N-glycans released from GPA preparations, the blood group ABH epitopes-containing N-glycans, similarly O-glycans, constituted only a minor part. The amount relative to other N-glycans was estimated to 2-6% of blood group H epitope-containing glycans released from GPA-O preparations and 1-2% of blood group A and B epitope-containing glycans, released from GPA-A and GPA-B, respectively.     

Structure determination of oligosaccharides isolated from Cad erythrocyte membranes by permethylation analysis and 500-MHz 1H-NMR spectroscopy

Alkaline borohydride reductive cleavage (beta-elimination) of glycophorin A isolated from one individual of the rare blood group Cad, resulted in the release of six acidic oligosaccharide-alditols which were separated by high-performance liquid chromatography (HPLC) on an alkyl amine silicagel column. The structure of four of them has been determined by the application of methanolysis, methylation analysis and 1H-NMR spectroscopy at 500 MHz. The structures and relative amounts were as follows: oligosaccharide 1: NeuAc(alpha 2-3)Gal(beta 1-3)GalNAc-ol (3.5%); oligosaccharide 3: GalNAc(beta 1-4)[NeuAc(alpha 2-3)]Gal(beta 1-3)GalNAc-ol (10.5%); oligosaccharide 5: NeuAc(alpha 2-3)Gal(beta 1-3)[NeuAc(alpha 2-6)]GalNAc-ol (10.4%); oligosaccharide 6: GalNAc(beta 1-4)[NeuAc(alpha 2-3)]Gal(beta 1-3)[NeuAc(alpha 2-6)]GalNAc-ol (71.2%). The two other oligosaccharides (2 and 4) were obtained in very low amount. The major pentasaccharide (oligosaccharide 6) carries the blood group Cad determinant and is a potent inhibitor of human anti-Sda antibody.     

A carbohydrate structural variant of MM glycoprotein (glycophorin A)

A variant of the MM glycoprotein (glycophorin A) was isolated from erythrocyte membranes of two individual donors, a mother (L.G.) and daughter (V.W.). This glycoprotein was found to be a carbohydrate variant in which, for both donors, certain O-glycosidically linked saccharides retained the core structure consisting of NeuAc(alpha 2,3)Gal(beta 1,3)GalNAc that is common to all O-linked saccharides of the MN glycoproteins, and, in addition, contained substituents, of varying chain lengths, on the primary carbinol of GalNAc. These saccharides were released from the polypeptide by beta-elimination in the presence of sodium borohydride, and aspects of their structure were investigated by glycosidase digestion and periodate oxidation. Thus, the smallest variant structure was deduced to be NeuAc(alpha 2,3)Gal(beta 1,3)[GlcNAc(beta 1,6)]H2GalNAc. The 6-O-linked GlcNAc appears to serve as the focus of further chain elongation reactions, involving alternate additions of Gal and GlcNAc residues and leading to the formation of several homologous structures. Two such structures, NeuAc(alpha 2,3)Gal(beta 1,3)[GlcNAc(beta 1,?) Gal(beta 1,3/4)GlcNAc(beta 1,6)]H2GalNAc and NeuAc(alpha 2,3) Gal(beta 1,3)[Gal(beta 1,3/4)GlcNAc(beta 1,6)]H2GalNAc were the predominant species present. A larger saccharide was also isolated and its partial sequence was determined to be Gal(beta 1,3/4)GlcNAc(beta 1,?)[Gal(beta 1,3/4)Glc-NAc(beta 1,?)] Gal(beta 1,3/4)GlcNAc(beta 1,6)[NeuAc(alpha 2,3)Gal-(beta 1,3)]H2GalNAc. Because the peptide portion of these glycoproteins contains two methionine residues, it was possible to isolate two CNBr glycopeptides from separate regions of the molecule, and to assess the distribution of these variant structures in the polypeptide. The saccharides were linked to about 2-3 Ser and/or Thr residues in the donor LG glycoprotein and one of the attachment sites was located within the CNBr glycooctapeptide representing the NH2 terminus. Considerable heterogeneity in saccharide structure was documented for this site, and it is likely that such heterogeneity occurs also at other sites. The variant saccharides bear structural similarities to the core region of O-linked saccharides of certain blood group-active mucins and ovarian cyst secretions, and to the outer sequences of N-linked carbohydrate units (I-, i-active) of the major glycoprotein of human erythrocytes, band 3. The structures of the variant saccharides suggest that they may be potential precursors of H blood group-active carbohydrates, present in varying degrees of maturity, and attached to an integral protein of erythrocytes.     

Characterization and partial purification of beta-N-acetylgalactosaminyltransferase from urine of Sd(a+) individuals

Urine from Sd(a+) individuals was found to contain a beta-N-acetylgalactosaminyltransferase that transfers N-acetylgalactosamine (GalNAc) from UDP-GalNAc to 3'-sialyllactose and glycoproteins carrying the terminal NeuAc alpha-3Gal beta group. This enzyme has been purified 174-fold by affinity chromatography on Blue Sepharose and DEAE-Sephacel chromatography in a yield of 33%. Neither endogenous incorporation nor sugar nucleotide degrading enzymes were found in the purified preparation. The transferase had a pH optimum of pH 7.5 and a requirement for Mn2+ but not for detergents. The Km for UDP-GalNAc was 66 X 10(-6) M, using fetuin as an acceptor. Like beta-GalNAc-transferase from other sources the urinary enzyme had a strict requirement for sialylated acceptors. On the basis of enzymatic and chemical treatment of the product obtained by the transfer of [3H]GalNAc to 3'-sialyllactose, we propose that the enzyme attaches GalNAc in beta-anomeric configuration to O-4 of the galactose residue that is substituted at O-3 by sialic acid. A preparation of Tamm-Horsfall glycoprotein from a Sd(a-) donor lacking beta-GalNAc was found to be the best acceptor among the glycoproteins tested. Studies on the transferase activity toward fetuin, human chorionic gonadotropin, and glycophorin A indicated that the enzyme preferentially adds the sugar to the sialylated terminal end of N-linked oligosaccharides. Unlike the beta-GalNAc-transferase bound to human kidney microsomes (F. Piller et al. (1986) Carbohydr. Res. 149, 171-184) the urinary transferase is able to transfer beta-GalNAc to the NeuAc alpha-3Gal beta-3(NeuAc alpha-6)GalNAc chains bound to the native glycophorin.     

A new monoclonal antibody directed to sialyl alpha 2-3lactoneotetraosylceramide and its application for detection of human gastrointestinal neoplasms

A new monoclonal antibody (NS24) directed to the N-acetylneuraminyl alpha 2-3Gal beta 1-4GlcNAc residue in type II sugar chain of N-acetylneuraminyllactoneotetraosylceramide [sialylparagloboside, IV3(NeuAc)nLc4Cer] was prepared by hybridoma technique. Liposomes composed of dipalmitoylphosphatidylcholine, cholesterol, IV3(NeuAc)nLc4Cer, and lipopolysaccharides from Salmonella minnesota R595 were used for immunization with IV3(NeuAc)nLc4Cer isolated from human erythrocytes. This method allowed the fusion of spleen cells of immunized mouse with myeloma cells only three days after immunization. NS24 reacted specifically to both naturally occurring and chemically synthesized IV3-(NeuAc)nLc4Cer, whereas it has no reactivity to structurally related gangliosides, such as IV6(NeuAc)nLc4Cer, N-glycolylneuraminyl alpha 2-3lactoneotetraosylceramide [IV3(NeuGc)-nLc4Cer], i-active ganglioside [VI3(NeuAc)nLc6Cer], I-active ganglioside [VIII3(NeuAc)-VI3(NeuAc)IV6kladoLc8Cer], GM4(NeuAc), GM3(NeuAc), GM3(NeuGc), GM1b(NeuAc), GD3-(NeuAc), other ganglio-series gangliosides, sulfatide, and paragloboside (nLc4Cer). Synthetic N-acetylneuraminyl alpha 2-3lactotetraosylceramide [IV3(NeuAc)Lc4Cer] and its asialo-derivative (Lc4Cer) carrying type I sugar chain also showed no reaction with NS24. One to 100 pmol of IV3(NeuAc)nLc4Cer was detected dose-dependently by a thin-layer chromatography/enzyme immunostaining procedure. Human gastric carcinomas showed positive reactions with NS24 immunochemically and histochemically. NS24 reacted preferentially with poorly differentiated adenocarcinomas rather than well differentiated ones.     

Northern hybridization analysis of VH gene expression in murine monoclonal antibodies directed to cancer-associated ganglioside antigens having various sialic acid linkages

The expression of the VH genes in 46 murine hybridoma cells that secrete mAb directed to the cancer-associated carbohydrate Ag, especially acidic glycolipids such as gangliosides and sulfated glycoplipids, was analyzed by Northern hybridization of poly(A)+ RNA of hybridoma with cDNA probes for nine VH gene families. Different hybridomas tended to express VH genes of the same family when the cognate Ag had the same or similar carbohydrate structures; i.e., the VH genes of the J558 family (group 1) were preferentially expressed in the mAb directed to various gangliosides that have NeuAc alpha (or NeuGc alpha) 2-3 and/or 2-8 linkage (71%), the most common linkage of sialic acid residues in the gangliosides of higher animals, and the hybridomas directed to sulfated glycolipids also expressed mainly the VH genes of the J558 family (80%). In contrast, the five mAb directed to various gangliosides with NeuAc alpha 2-6 linkage were exclusively encoded by the VH genes of Q52 family (group 2, 100%), and three antibodies directed to gangliosides with a NeuAc alpha 2-9 linkage all expressed genes of J606 family (group 6, 100%). The VH family usage was largely correlated with the linkage of sialic acid residues in the cognate carbohydrate Ag, but was not correlated at all with the difference in the fine specificities toward the core neutral carbohydrate chain, to which the sialic acid residues were attached. These findings suggest that the VH gene family in these anticarbohydrate antibodies is selected, depending primarily on the linkage of the sialic acid residues in carbohydrate Ag; these residues form the immunodominant sugar residue in the respective antigenic determinant.     

Production of monoclonal antibodies specific for ganglioside GD3.

Four kinds of anti-GD3 monoclonal antibodies, DSG-1, -2, -3, and -4, of the IgM class were obtained by the immunization of BALB/c mice with enzootic bovine leukosis tumor tissue-derived ganglioside GD3 inserted into liposomes with Salmonella minnesota R595 lipopolysaccharides. The specificities of the monoclonal antibodies obtained were defined by complement-dependent liposome immune lysis assay and by enzyme immunostaining on thin-layer chromatography. The reactivities of the monoclonal antibodies obtained to four ganglioside GD3 variants [GD3(NeuAc-NeuAc), GD3(NeuAc-NeuGc), GD3(NeuGc-NeuAc), and GD3(NeuGc-NeuGc)] were tested. All of the monoclonal antibodies were found to react with GD3(NeuAc-NeuAc) and GD3(NeuAc-NeuGc) but not with GD3(NeuGc-NeuAc) or GD3(NeuGc-NeuGc). Furthermore, various purified glycosphingolipids were used to determine the specificity of these monoclonal antibodies. All 4 antibodies reacted only with ganglioside GD3 [GD3(NeuAc-NeuAc) and GD3(NeuAc-NeuGc)], but not with several gangliosides linking the GalNAc, Gal beta 1-3GalNAc, NeuAc alpha 2-3Gal beta 1-3GalNAc, or NeuAc alpha 2-8NeuAc alpha 2-3Gal beta 1-3GalNAc residue to the Gal moiety of ganglioside GD3 (GD2, GD1b, GT1b, or GQ1b, respectively), ganglioside GT1a having the same terminal NeuAc alpha 2-8NeuAc alpha 2-3Gal residue as ganglioside GD3, other gangliosides, and neutral glycosphingolipids. These findings suggest that the 4 monoclonal antibodies obtained may be specific for the epitope of NeuAc-alpha 2-8Sia alpha 2-3Gal beta 1-4Glc residue of ganglioside GD3.     

Acidic glycosphingolipids of human amnion

Six major acidic glycosphingolipids were isolated from human amnion using DEAE Sephadex A-25 and silica beads column chromatography. The structures of these glycosphingolipids were determined by methylation analysis, TLC immunostaining and/or negative ion FAB-MS, and were concluded to be II3 alpha NeuAcLacCer(GM3), IV3 alpha NeuAcnLc4-Cer (sialyl[alpha 2-3]paragloboside), IV6 alpha NeuAcnLc4Cer (sialyl[alpha 2-6]paragloboside), IV3 alpha NeuAcIII4 alpha FucLc4Cer (sialyl Lea), VI3 alpha NeuAcnLc6Cer (i-ganglioside) and II3 alpha (NeuAc alpha 2----8NeuAc)LacCer (GD3). In addition, several minor glycosphingolipids were detected with specific monoclonal antibodies, including glycolipids with NeuAc alpha 2-3Gal beta 1-4GlcNAc-beta 1- or NeuAc alpha 2-6Gal beta 1-4GlcNAc beta 1- determinant. Our results show that the glycosphingolipids of human amnion are characterized by having mainly type II chain analogues and onco-fetal antigens.