A sialidase-susceptible ganglioside, IV3 alpha(NeuGc alpha 2-8NeuGc)-Gg4Cer, is a major disialoganglioside in WHT/Ht mouse thymoma and thymocytes.

The disialogangliosides of WHT/Ht mouse thymomas, which were obtained by subcutaneous transplantation of a thymoma that developed spontaneously in a WHT/Ht mouse, were purified and characterized. From the results of sugar-composition analysis, a permethylation study, enzymatic hydrolysis followed by TLC-immunostaining, negative-ion fast atom bombardment mass spectrometry (FAB/MS), and 1H-NMR spectroscopy, the structure of one of the five purified disialogangliosides was determined to be IV3 alpha(NeuGc alpha 2-8NeuGc)-Gg4Cer. The other 4 disialogangliosides were tentatively characterized on the basis of sialidase treatment followed by TLC-immunostaining with cholera toxin B subunit and anti-Gg4Cer antibody to be IV alpha(NeuAc alpha-NeuGc)-Gg4Cer, IV alpha(NeuGc alpha-NeuAc)-Gg4Cer, IV alpha NeuAc,II3 alpha NeuAc-Gg4Cer, and IV alpha NeuGc,II3 alpha NeuGc-Gg4Cer. In addition, another component exhibiting one spot on TLC was a mixture of IV alpha NeuGc,II3 alpha NeuAc-Gg4Cer and IV alpha NeuAc,II3 alpha NeuGc-Gg4Cer. Then the occurrence of these gangliosides in WHT/Ht mouse thymocytes was examined. As one of two major disialogangliosides, the thymocytes contained IV3 alpha(NeuGc alpha 2-8NeuGc)-Gg4Cer, which was characterized with a mass spectrum and mass chromatograms obtained by micro high-performance liquid chromatography-FAB/MS. The other major disialoganglioside was tentatively characterized to be II3 alpha-(NeuGc alpha-NeuGc)-Gg4Cer by sialidase treatment followed by TLC-immunostaining. A sialidase-susceptible monosialoganglioside, IV3 alpha NeuGc-Gg4Cer [GM1b(NeuGc)], had been reported to be characteristic of mouse immune tissues [Nakamura, K. et al. (1988) J. Biochem, 103, 201-208]. Taken together, the results suggest that the pathway from Gg4Cer to IV3 alpha(NeuGc alpha 2-8NeuGc)-Gg4Cer through GM1b(NeuGc) is quite active in mouse immune tissues.     

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.     

Neutral glycosphingolipids and gangliosides from spleen T lymphoblasts of genetically different inbred mouse strains

The gangliosides GM1b, GalNAc-GM1b and GD1α are typical compounds of concanavalin A stimulated splenic T lymphoblasts of CBA/J inbred mice. Their structural characterization has been described in previous studies. The intention of this work was the comparative TLC immunostaining analysis of the glycosphingolipid composition of lectin stimulated splenic T lymphoblasts obtained from six genetically different inbred mouse strains. The strains examined were AKR, BALB/c, C57BL/6, CBA/J, DBA/2 and WHT/Ht, which are commonly used for biochemical and immunological studies. The neutral glycosphingolipid GgOse4Cer, the precursor for GM1b-type gangliosides, was expressed by all six strains investigated. AKR, C57BL/6 and DBA/2 showed high and BALB/c, CBA/J and WHT/Ht diminished expression in T lymphoblasts, based on single cell calculation. The gangliosides GM1b and GalNAc-GM1b, elongation products of GgOse4Cer, displayed strain-specific differences in their intensities, which were found to correlate with the intensities of GgOse4Cer expression of the same strains. Concerning sialic acid substitution of gangliosides, GM1b and GalNAc-GM1b predominantly carry N-acetylneuraminic acid, whereas choleragenoid receptors GM1a and Gal-GalNAc-GM1b, which are also expressed by all six strains, are characterized by dominance of N-glycolylneuraminic acid. Two highly polar gangliosides, designated with X and Y, which have not been previously recognized in murine lymphoid tissue, were detected by positive anti-GalNAc-GM1b antibody and choleragenoid binding, respectively. Both gangliosides were restricted to AKR, DBA/2 and C57BL/6 mice. The other three strains BALB/c, CBA/J and WHT/Ht are lacking these structures. In summary, the GM1b-type pathway is quite active in all six strains analysed in this study. Strain-specific genetic variations in T lymphoblast gangliosides were observed with the occurrence of gangliosides X and Y. This study and data from other groups strongly indicate for GM1b-type gangliosides a functional association with T cell activation and leukocyte mediated reactions. Abbreviations: ConA, concanavalin A; GSL(s), glycosphingolipid(s); HPTLC, high-performance thin-layer chromatography; NeuAc, N-acetylneuraminic acid; NeuGc, N-glycolylneuraminic acid. The designation of the following glycosphingolipids follows the IUPAC-IUB recommendations (1977) [48] and the ganglioside nomenclature system of Svennerholm [49] for GM1a-type gangliosides. Glucosylceramide or GlcCer, Glcβ1-1Cer; lactosylceramide or LacCer, Galβ1-4Glcβ1-1Cer; gangliotriaosylceramide or GgOse3Cer or Gg3, GalNAcβ1-4Galβ1-4Glcβ1-1Cer; gangliotetraosylceramide or GgOse4Cer or Gg4, Galβ1-3GalNAcβ1-4Galβ1-4Glcβ1-1Cer; gangliopentaosylceramide or GgOse5Cer, GalNAcβ1-4Galβ1-3GalNAcβ1-4Galβ1-4Glcβ1-1Cer; gangliohexaosylceramide or GgOse6Cer, Galβ1-3GalNAcβ1-4Galβ1-3GalNAcβ1-4Galβ1-4Glcβ1-1Cer. GM3, II3NeuAc-LacCer; GM1 or GM1a, II3NeuAc-GgOse4Cer; GM1b, IV3NeuAc-GgOse4Cer; GalNAc-GM1b, IV3NeuAc-GgOse5Cer; GD1a, IV3NeuAc, II3NeuAc-GgOse4Cer; GD1b, II3(NeuAc)2-GgOse4Cer; GD1c, IV3(NeuAc)2-GgOse4Cer; GD1α, IV3NeuAc, III6NeuAc-GgOse4Cer. Only NeuAc-substituted gangliosides are presented in this list of abbreviations This revised version was published online in November 2006 with corrections to the Cover Date.     

Generation of murine monoclonal antibodies specific for N-glycolylneuraminic acid-containing gangliosides.

We generated two murine monoclonal antibodies (MAbs) specific for mono- and disialylgangliosides having N-glycolylneuraminic acid (NeuGc) as their sialic acid moiety, respectively, by immunizing C3H/HeN mice with these purified gangliosides adsorbed to Salmonella minnesota followed by fusion with mouse myeloma cells. By use of a wide variety of glycolipids, including NeuGc-containing gangliosides, the precise structures recognized by these two antibodies were elucidated through enzyme-linked immunosorbent assay and immunostaining on thin-layer chromatography. One MAb, GMR8, which was generated by immunizing the mice with purified GM3(NeuGc), reacted specifically with gangliosides having NeuGc alpha 2----3Gal- terminal structures, such as GM3(NeuGc), IV3NeuGc alpha-Gg4Cer, IV3NeuGc alpha-nLc4Cer, V3NeuGc alpha-Gb5Cer, and GD1a(NeuGc, NeuGc). None of the other gangliosides having internal NeuGc alpha2----3Gal- sequences, such as GM2(NeuGc) and GM1(NeuGc), nor corresponding gangliosides having NeuAc alpha 2----3Gal- sequences, nor neutral glycolipids were recognized. Thus, the epitope structures recognized by the MAb were found to be strictly NeuGc alpha 2----3Gal- terminal structures. In contrast, the other MAb, GMR3, which was generated by immunizing the mice with purified GD3(NeuGc-NeuGc-) adsorbed to the bacteria, reacted specifically with gangliosides having NeuGc alpha 2----8NeuGc alpha 2----3Gal- terminal sequences, such as GD3(NeuGc-NeuGc-), IV3NeuGc alpha 2-Gg4Cer, IV3NeuGc alpha 2-nLc4Cer, and V3NeuGc alpha 2-Gb5Cer, but did not react with corresponding gangliosides having NeuAc as their sialic acid moiety or with the neutral glycolipids tested. The epitope structures recognized by the MAb were suggested to be NeuGc alpha 2----8NeuGc alpha 2----3Gal- terminal structures. Using these MAbs, we determined the distribution of such gangliosides in the spleen, kidney, and liver of several mice strains. Novel gangliosides reactive with these MAbs were detected in these tissues.     

Characterization of new gangliosides of the lactotetraose series in murine xenografts of a human glioma cell line

The major mono- and disialogangliosides of the extensively characterized established human glioma line D54MG were isolated and purified from subcutaneous solid xenografts grown in athymic (nu/nu) mice. Structural determination showed that they belonged to the lactotetraosylceramide series. The sialyllactotetraosylceramide contained 90% N-glycolyl- and 10% N-acetylneuraminic acid linked in an alpha 2-3 linkage (IV3NeuGc-LcOse4Cer, IV3NeuAc-LcOse4Cer). The disialogangliosides had a previously undescribed type of structure with sialic acids linked to the terminal galactose in an alpha 2-3 linkage and to N-acetylglucosamine in an alpha 2-6 linkage. Not only did species with NeuAc or NeuGc occur, but also species with mixtures of the two sialic acids, e.g. NeuAc and NeuGc. The schematic structures of the new disialogangliosides are (Formula:see text).     

Characterization of tumor-associated fucogangliosides from PC 12 pheochromocytoma cells

PC 12h pheochromocytoma cells were subcutaneously transplanted into rat. We found the transplanted tumors accumulated some fucogangliosides associated with PC 12 cells. These gangliosides were isolated and purified by DEAE-Sephadex A-25 and Iatrobeads column chromatographies. Their structures were determined by fast atom bombardment mass spectrometry, proton nuclear magnetic resonance spectrometry, permethylation study, and sequential degradation using various exoglycosidases and mild acid hydrolysis. Two tumor-associated fucogangliosides were found to possess the blood group B determinant as follows: G6: IV2Fuc alpha, IV3Gal alpha, II3NeuAc, GgOse4Cer; G11: IV2Fuc alpha, IV3Gal alpha, II3 (NeuAc)2, GgOse4Cer. A ganglioside with the similar structure as ganglioside G6 was isolated from rat hepatoma cells (Holmes, E.H., and Hakomori, S-I. (1982) J. Biol. Chem. 257, 7698-7703). However, ganglioside G11 has not previously been reported in the literature. These fucogangliosides reacted with the monoclonal antibody prepared by immunizing mice with PC 12h cells. Other fucogangliosides were also found to accumulate in the transplanted tumor tissues. They were identified as fucosyl-GM1 and fucosyl-GDlb. These fucogangliosides did not react with the monoclonal antibody against PC 12h cells.     

Novel polysialogangliosides of skate brain structural determination of tetra, penta and hexasialogangliosides with a NeuAc-GalNAc linkage.

The gangliosides in the brain of a cartilaginous fish, skate (Bathyraja smirnovi), have been isolated and characterized by means of methylation analysis, antibody binding, enzymatic hydrolysis and MALDI-TOF MS. In addition to gangliosides with known structures (GM2, fucosyl-GM1, GD3, GD2, GT3 and GT2), five polysialogangliosides were isolated and characterized as having the following structures. (1) IV3NeuAc, III6NeuAc, II3NeuAc-Gg4Cer; (2) IV3NeuAc2, III6NeuAc, II3NeuAc-Gg4Cer; (3) IV3NeuAc, III6NeuAc, II3NeuAc2-Gg4Cer; (4) IV3NeuAc, III6NeuAc, II3NeuAc3-Gg4Cer; and (5) IV3NeuAc2, III6NeuAc, II3NeuAc3-Gg4Cer. These structures are 'hybrid-type' which comprise combinations of alpha-series and either a, b or c-series structures. Three gangliosides (2), (4) and (5), were novel. The main features of the ganglioside composition of skate brain were an abundance of gangliotriaosyl species, a lack of gangliotetraosyl species (except fucosyl-GM1), and an abundance of hybrid-types. These characteristics closely resemble those in shark brain which we reported previously [Nakamura, K., Tamai, Y. & Kasama, T. (1997) Neurochem. Int. 30, 593-604]. Two of the hybrid-type gangliosides (1) and (4), were examined for their neuritogenic activity toward cultured neuronal cells (Neuro-2A), and were found to have more potent activity than nonhybrid-type gangliosides such as GM1.     

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.     

Susceptibility of infant mice to F5 (K99)E. coli infection: Differences in glycosyltransferase activities in intestinal mucosa of inbred CBA and DBA/2 strains

EnterotoxigenicEscherichia coli (ETEC) strains expressing F5 (K99) fimbriae cause diarrhoea in the young animal through adhesion to specific sialoglycolipids of the small intestine surface. We studied here an infant mouse diarrhoea model, as CBA infant mice are susceptible to F5-positive ETEC infection, whereas DBA/2 ones are resistant. In an attempt to determine an enzymatic basis for susceptibility and resistance, we investigated the intestine ganglioside pattern in relation to the activity of glycosyltransferases responsible for the globo- and ganglio-series. We observed that the intestine of susceptible CBA infant mice displayed a characteristic sialoglycolipid pattern containing mainly the F5 receptors. The two murine strains differed in the relative activities of galactosyltransferases (GbOse₃Cer and GM1 synthases),N-acetylgalactosylaminyltransferases (GA2 and GM2 synthases) and sialyltransferases (GM3 and GD3 synthases). An elevated GM3-synthase activity was observed in the intestine of susceptible CBA infant mice, at the age of high susceptibility. Hence, we conclude that the marked specificity of mouse type correlated with susceptibility and resistance to F5-positive ETEC infection which could be controlled through the regulation of glycosyltransferase activities.Abbreviations NeuAc N-acetylneuraminic acid - NeuGc N-glycolylneuraminic acid - Glc glucose - GalNAc N-acetylgalactosamine - Gal galactose - Car ceramide - LacCer lactosylceramide (Galß-4Glcß1-1Cer) - GA2 asialo-GM2 (GgOse₃Cer) - GA1 asialo-GM1 (GgOse₄Cer) - NeuAc/NeuGc-GMla II³ NeuAc/NeuGc-GgOse₄Cer - NeuAc/NeuGc-GM1a IV³ NeuAc/NeuGc-GgOse₄Cer - NeuAc/NeuGc-GM2 II³ NeuAc/neuGc-GgOse₃Cer - NeuAc/NeuGc-GM3, II³ NeuAc/NeuGc-LacCer; NeuAc/NeuGc-GD1a, IV³ NeuAc/NeuGc, II³ NeuAc/NeuGc-GgOse₄Cer; NeuAc/NeuGc-GD1b II³ (NeuAc/NeuGc)₂-GgOse₄Cer - NeuAc/NeuGc-GD1c IV³ (NeuAc/NeuGc)₂-GgOse₄Cer - NeuAc/NeuGc-GD2, II³ (NeuAc/NeuGc)₂-GgOse₃Cer; NeuAc/NeuGc-GD3, II³ (NeuAc/NeuGc)₂-Lac Cer; NeuAc/NeuGcGT1a IV³ (NeuAc/NeuGc)₂, II³ NeuAc/NeuGc-GgOse₄Cer - NeuAc/neuGc-GT1b IV³ NeuAc/NeuGc, II³ (NeuAc/NeuGc)₂-GgOse₄Cer - NeuAc/NeuGc-GT1c II³ (NeuAc/NeuGc)₃-GgOse₄Cer; NeuAc/NeuGc-GT2, II³ (NeuAc/NeuGc)₃-GgOse₃Cer - NeuAc/NeuGc-GT3 II³ (NeuAc/NeuGc)₃-Lac Cer - NeuAc/NeuGc-GQ1b IV³ (NeuAc/NeuGc)₂, II³ (NeuAc/NeuGc)₂-GgOse₄Cer - NeuAc/NeuGc-GQ1c IV³ NeuAc/NeuGc, II³ (NeuAc/NeuGc)₃-GgOse₄Cer - NeuAc/NeuGc-GP1c IV³ (NeuAc/NeuGc)₂, II³ (NeuAc/NeuGc)₃-GgOse₄Cer - GD, GT and GQ di-, tri- and tetra-sialoglangliosides. NeuGc-SPG, IV³ NeuGc-nLcOse₄Cer. Glycosyltransferases assayed in this work areN-acetylgalactosaminyltransferases - UDP-GalNAc lactosylceramide 1-4N-acetylgalactosaminyltransferase or GA2 synthase (EC 2.4.1-) and UDP-GalNAc:(N-acetylneuraminyl)-lactosylceramide 1-4N-acetylgalactosaminyltransferase or GM2 synthase (EC 2.4.1.92) - sialyltransferases CMP-N-acetylneuraminate: lactosylceramide 2–3 sialyltransferase (sialyltransferases I and IV) or GM3 synthase (EC 2.4.99.-) and CMP-N-acetylneuraminate:(N-acetylneuraminyl) lactosylceramide 2-8 sialyltransferase (sialyltransferase II) or GD3 synthase (EC 24.99.8) - galactosyltransferases UDP-galactose:N-acetylgalactosaminyl-(N-acetylneuraminyl) lactosylceramide 1-3 galactosyltransferase (galactosyltransferase II) or GM1a synthase (EC 2.4.1.62) and UDP-galactose:lactosylceramide 1-4 galactosyltransferase or GbOse₃Cer synthase (EC 2.4.1-)     

The c-series gangliosides GT3, GT2 and GP1c are formed in rat liver Golgi by the same set of glycosyltransferases that catalyse the biosynthesis of asialo-, a- and b-series gangliosides.

Biosynthesis of the c-series gangliosides GT3, GT2 and GP1c was studied in Golgi derived from rat liver. Competition experiments show that the synthesis of ganglioside GT2 (GalNAc beta 1----4-(NeuAc alpha 2----8NeuAc alpha 2----8NeuAc alpha 2----3)Gal- beta 1----4Glc beta 1----1Cer) from GT3 (NeuAc alpha 2----8NeuAc alpha 2----8-NeuAc alpha 2----3Gal beta 1----4Glc beta 1----1Cer) seems to be catalysed by the same N-acetylgalactosaminyl-transferase (GalNAc-T), which converts GM3 (NeuAc alpha 2----3Gal beta 1----4Glc beta 1----1Cer) to GM2 (GalNAc beta 1----4(NeuAc alpha 2----3)Gal beta 1----4Glc beta 1----1Cer). Similar competition experiments suggest moreover that the sialytransferase V (SAT V), which catalyses the synthesis of GT1a (NeuAc alpha 2----8NeuAc alpha 2----3Gal beta 1----3GalNAc beta 1----4- (NeuAc alpha 2----3)-Gal beta 1----4Glc beta 1----1Cer) from GD1a (NeuAc alpha-2----3Gal beta 1----3GalNAc beta 1----4(NeuAc alpha 2----3)Gal beta 1----4Glc beta 1----1-Cer) appears to be identical to the enzyme that catalyses the synthesis of GP1c (NeuAc alpha 2----8NeuAc alpha 2----3Gal beta 1----3-GalNAc beta 1----4(NeuAc alpha 2----8-NeuAc alpha 2----8NeuAc alpha 2----3)Gal beta-1----4Glc beta 1----4Glc beta 1----1Cer) from GQ1c (NeuAc alpha 2----3Gal beta 1----3Gal-NAc beta 1----4 (NeuAc alpha 2----8NeuAc alpha 2----8NeuAc alpha 2----3)Gal beta 1----4-Glc beta 1----1Cer).(ABSTRACT TRUNCATED AT 250 WORDS)     

Glycosphingolipids of normal bovine and enzootic bovine leukosis lymph node cells

We analyzed glycosphingolipids from normal lymph node cells of seven cattle and lymph node cells of eight cattle with enzootic bovine leukosis. The neutral glycosphingolipids and gangliosides were analyzed by thin-layer chromatography. Both normal and tumorous lymph node cells had GlcCer, LacCer, and GbOse3Cer as major neutral glycosphingolipids. In the ganglioside fraction, GM3 was the predominant component in both normal and tumorous lymph node cells, and another component, ganglioside Gx fraction, was also prominent in tumorous lymph node cells. The structure of this ganglioside Gx fraction was elucidated by thin-layer chromatography, sugar analysis, neuraminidase digestion, and permethylation studies. This ganglioside Gx fraction was found to be a mixture of four ganglioside species. The structures of individual gangliosides Gx (1 to 4) were characterized as follows. 1: GD3, NeuAc alpha 2-8NeuAc alpha 2-3Gal1-4Glc-Cer. 2: GD3, NeuAc alpha 2-8NeuGc alpha 2-3Gal1-4Glc-Cer. 3: GD3, NeuGc alpha 2-8NeuAc alpha 2-3Gal1-Glc-Cer. 4: GD3, NeuGc alpha 2-8NeuGc alpha 2-3Gal1-4Glc-Cer. These GD3 species may be formed as a result of the induced synthesis inassociation with malignant transformation.     

Adhesion of K99 fimbriated Escherichia coli to pig intestinal epithelium: correlation of adhesive and non-adhesive phenotypes with the sialoglycolipid content.

Evidence for the existence of two phenotypes of piglets born to experimental herds was obtained based on the susceptibility of intestinal brush borders to adhesion of K99-positive Escherichia coli. The enterocytes of the K99-receptive piglets displayed a characteristic sialoglycolipid pattern, with a higher content of the monosialoglycolipids II3NeuGc-LacCer (GM3Gc), IV3NeuGc-nLcOse4Cer (SPGGc) and IV3NeuAc-nLcOse4Cer (SPG) and the oligosialogangliosides IV3NeuAc,II3NeuAc-GgOse4Cer (GD1a), II3(NeuAc)2-GgOse3Cer (GD2), II3(NeuAc)2-GgOse4Cer (GD1b) and IV3NeuAc,II3(NeuAc)2-GgOse4Cer (GT1b) when compared to the gangliosides of non-receptive piglets. The gangliosides from enterocytes of the non-receptive piglets were mainly the monosialogangliosides II3NeuAc-GgOse3Cer (GM2) and II3NeuAc-LacCer (GM3), only traces of the other sialoglycolipids being detected. Adhesion of 14C-labelled K99-positive E. coli cells to the piglet small intestinal sialoglycolipids, as tested by the thin-layer chromatogram overlay assay, revealed that the receptive enterocyte membrane was richer in glycolipids containing K99 receptor structures than the non-receptive enterocyte. Adhesion of K99-positive E. coli correlated with the degree of sialylation of the brush border glycolipids.     

A new ganglioside showing choleragenoid-binding activity in mouse spleen

A new ganglioside showing choleragenoid-binding activity was purified from mouse spleen and characterized. From the results of sugar-composition analysis, enzymatic hydrolysis, a permethylation study, 1H-NMR spectroscopy, and negative-ion fast atom bombardment mass spectrometry, the structure of the ganglioside was determined to be as follows: Gal beta 1-3GalNAc beta 1-4Gal beta 1-3GalNAc beta 1-4Gal beta 1-4Glc beta 1-1'ceramide 3----NeuGc alpha 2 This ganglioside contains a terminal tetrasaccharide structure identical with that of II3NeuGc alpha-Gg4Cer (GM1(NeuGc]. By means of a TLC-immunobinding assay and an enzyme-linked immunosorbent assay, the ganglioside was demonstrated to have almost the same choleragenoid-binding activity as GM1. Another ganglioside, that migrated faster than the new choleragenoid-binding ganglioside, was also purified from the same source material and identified as IV4GalNAc beta,IV3NeuGc alpha-Gg4Cer (GalNAc-GM1b(NeuGc]. Since, in the previous study, we demonstrated the existence of IV3NeuGc alpha-Gg4Cer (GM1b(NeuGc] in mouse spleen (Nakamura, K. et al. (1984) J. Biochem. 96, 949-957), the results of this study suggest that the new choleragenoid-binding ganglioside is synthesized from GM1b(NeuGc) through GalNAc-GM1b(NeuGc).     

Structure determination of five sialylated trisaccharides with core types 1, 3 or 5 isolated from bovine submaxillary mucin

In this study we have investigated the structures of five sialylated trisaccharides released from bovine submaxillary mucin by alkaline borohydride treatment and isolated by high-performance liquid chromatography. Three of the trisaccharides contained NeuAc while two contained NeuGc. One oligosaccharide contained core-type 1, two contained core-type 3 and two contained core-type 5. The structures, determined by a combination of one- and two-dimensional 1H-NMR spectroscopy at 270 MHz and methylation analysis involving gas-liquid chromatography/mass spectrometry, were as follows: A4b, GalNAc alpha(1----3) [NeuAc alpha(2----6)]GalNAcol; A4c, GlcNAc beta(1----3)[NeuAc alpha(2----6)]GalNAcol; A4d, Gal beta(1----3)[NeuAc alpha(2----6)]GalNAcol; A4e, GalNAc alpha(1----3)-[NeuGc alpha(2----6)]GalNAcol; A4f, GlcNAc beta(1----3)[NeuGc alpha (2----6)]GalNAcol. The oligosaccharides occurred in the approximate molar ratios 1.0:12.0:0.3:0.2:2.0. This is the first report of oligosaccharides containing core-type 5 and of the occurrence of oligosaccharides A4b, A4e, and A4f in bovine submaxillary mucin. 1H-NMR data for structure A4e, which is a novel structure, are presented for the first time.     

Selective terminal alpha 2-3 and alpha 2-6 sialylation of glycosphingolipids with lacto-series type 1 and 2 chains in human meconium

Human meconium was found to contain two kinds of gangliosides with the same carbohydrate sequence belonging to the lacto-series. They were detected by TLC-immunostaining with monoclonal antibodies directed to the NeuAc alpha 2-6Gal and Lc4Cer structures. One of these two gangliosides, a major one, which migrated on TLC to a position below that of standard IV3NeuAcnLc4Cer from human erythrocytes, reacted with the antibody to NeuAc alpha 2-6Gal. The other minor one, which migrated on TLC to a position corresponding to standard IV3NeuAcnLc4Cer, was detected with the antibody to Lc4Cer only when the plate, on which the individual gangliosides were separated, was subjected to prior treatment with Vibrio cholerae sialidase. The structures of the gangliosides, each identified by means of permethylation anaylsis with Vibrio cholerae sialidase. The structures of the gangliosides, each identified by means of permethylation anaylsis and enzyme treatment after isolation with antibody monitoring, were shown to be IV6NeuAcnLc4Cer for the former and IV3NeuAcLc4Cer for the latter, indicating that the lacto-series type 2 (nLc4Cer) and 1 (Lc4Cer) chains are sialylated at different linkages, alpha 2-6 and alpha 2-3, respectively. IV6NeuAcLc4Cer and IV3NeuAcnLc4Cer were not detected, even in trace amounts, on TLC-immunostaining with the monoclonal antibodies. The concentrations of IV6NeuAcnLc4Cer and IV3NeuAcLc4Cer were 448 and 18 nmol/g dry wt of human meconium.     

Structural characterization of the disialogangliosides of murine peritoneal macrophages

Sialoglycosphingolipids (gangliosides) have been increasinglyimplicated as regulators of membrane signaling events. Macrophageganglioside patterns dramatically increase in complexity whenmurine peritoneal macrophages are stimulated in vivo with theappearance of the sialidase-sensitive monosialoganglioside GMlb(cisGMl) as a major component Gangliosides from stimulated murineperitoneal macrophages were separated into monosialo and polysialofractions and the polysialo fraction structurally characterizedby enzymatic, chemical, and mass spectra methods. All detectablecomponents of the polysialo fraction were determined to be disialogangliosides.Treatment of the polysialo fraction with Clostridium perfringenssiali-dase produced mostly the sialidase-resistant monosialoganglioside,GMIa, and a minor amount of asiaJoGMI. Perio-date oxidationand mass spectrometry analyses demonstrated the lack of tandemdisialo moieties which indicated the absence of GD1b or GD1c(GDI) entities. The combined data showed the major disialogangliosidesconsisted of GDla entities comprising IV3-NeuAc,II3NeuAc-GgOse4Cer,IV3-NeuGc,II3NeuAc-GgOse4Cer, IV3NeuAc,II3NeuGc-GgOse4Cer, andIV3-NeuGc,II3NeuGc-GgOse4Cer. Minor components consisted ofGDl entities, IV3NeuAc, III6NeuAcGgOse4Cer, IV3NeuGc, III6NeuGcGgOse4Cer,and also positional iso-mer(s) of GDl(NeuAc, NeuGc). These isomericcomponents were identified by collision analysis and tandemmass spectrometry. Consistent with previous analyses, the cer-amideportion of all polysialo (disialo) gangliosides contained solelyC18 sphingosine with C16 and C24 fatty acid moieties. Theseresults, combined with the previous characterization of macrophagemonosialogangliosides, indicate normal murine macrophage gangliosidebiosynthesis proceeds along the "a" ganglioside pathway, e.g.,GM3GM2GMlaGDl, and the proposed asialogan-glioside or "" pathway,asialoGMlGMlbGDl. The presence of totally sialidase-sensitivegangliosides appears to be characteristic of functional murineperitoneal macrophages while they are reduced in geneticallyimpaired cells. ganglioside GDla ganglioside GDl murine macrophages tandem mass spectrometry collision induced dis-association electrospray ionization     

Enhanced binding of the neural siglecs, myelin-associated glycoprotein and Schwann cell myelin protein, to Chol-1 (alpha-series) gangliosides and novel sulfated Chol-1 analogs

Extended glycoconjugate binding specificities of three sialic acid-dependent immunoglobulin-like family member lectins (siglecs), myelin-associated glycoprotein (MAG), Schwann cell myelin protein (SMP), and sialoadhesin, were compared by measuring siglec-mediated cell adhesion to immobilized gangliosides. Synthetic gangliosides bearing the alpha-series determinant (NeuAc alpha2,6-linked to GalNAc on a gangliotetraose core) were tested, including GD1alpha (IV(3)NeuAc, III(6)NeuAc-Gg(4)OseCer), GD1alpha with modified sialic acid residues at the III(6)-position, and the "Chol-1" gangliosides GT1aalpha (IV(3)NeuAc, III(6)NeuAc, II(3)NeuAc-Gg(4)OseCer) and GQ1balpha (IV(3)NeuAc, III(6)NeuAc, II(3)(NeuAc)(2)-Gg(4)OseCer). The alpha-series gangliosides displayed enhanced potency for MAG- and SMP-mediated cell adhesion (GQ1balpha > GT1aalpha, GD1alpha > GT1b, GD1a > GM1 (nonbinding)), whereas sialoadhesin-mediated adhesion was comparable with alpha-series and non-alpha-series gangliosides. GD1alpha derivatives with modified sialic acids (7-, 8-, or 9-deoxy) or sulfate (instead of sialic acid) at the III(6)-position supported adhesion comparable with that of GD1alpha. Notably, a novel GT1aalpha analog with sulfates at two internal sites of sialylation (NeuAcalpha2,3Galbeta1,4GalNAc-6-sulfatebeta1, 4Gal3-sulfatebeta1,4Glcbeta1,1'ceramide) was the most potent siglec-binding structure tested to date (10-fold more potent than GT1aalpha in supporting MAG and SMP binding). Together with prior studies, these data indicate that MAG and SMP display an extended structural specificity with a requirement for a terminal alpha2, 3-linked NeuAc and great enhancement by nearby precisely spaced anionic charges.     

High-performance liquid chromatography-mass spectrometry of glycosphingolipids: II. Application to neutral glycolipids and monosialogangliosides

We previously reported a method of high-performance liquid chromatography-fast atom bombardment mass spectrometry (HPLC/FAB/MS) for the structural characterization of molecular species of GlcCer and IV3 beta Gal-Gb4Cer [M. Suzuki et al. (1989) J. Biochem. 105, 829-833]. In this paper, we report a modification of this HPLC/FAB/MS method, which was used for the separation and characterization of neutral glycosphingolipids (GlcCer, LacCer, Gb3Cer, Gb4Cer, and IV3 alpha GalNAc-Gb4Cer) and monosialogangliosides [GM3(NeuAc or NeuGc), GM2 (NeuAc or NeuGc), and GM1 (NeuAc or NeuGc)]. Mixtures of the purified neutral glycolipids and monosialogangliosides were subjected to HPLC on a silica gel column, with programmed elution with isopropanol-n-hexane-water, with or without ammonium hydroxide. In order to obtain mass spectra and mass chromatograms of individual components, effluent from the HPLC column was mixed with a methanol solution of triethanolamine, which was used as the matrix for the FAB ionization, and one-thirtieth of the effluent mixture was introduced into a mass spectrometer through a frit interface. A mixture of the five neutral glycolipids, 5 micrograms of each, gave five peaks on a mass chromatogram obtained by monitoring of the corresponding major pseudo-molecular ions. A mixture of the six monosialogangliosides, 5 micrograms of each, gave six peaks on a mass chromatogram obtained by monitoring of the major pseudo-molecular ions, indicating that GM3, GM2, and GM1 were clearly separated, and that separation due to differences in sialic acid species was also achieved. In the mass spectra of the neutral glycolipids and monosialogangliosides, pseudo-molecular ions and fragment ions due to the elimination of sugar moieties were clearly detected.(ABSTRACT TRUNCATED AT 250 WORDS)     

Isolation of three novel cholinergic neuron-specific gangliosides from bovine brain and theirin vitro syntheses

In the present study, three extremely minor but novel Chol-1 antigens, termed X1, X2, and X3 have been isolated from bovine brain gangliosides. Based on the results of sialidase degradation, TLC-immunostaining with anti-Chol-1 antibody and fast atom bombardment mass spectrometry, their chemical structures were identified as: $$\begin{gathered} III^6 NeuAc--GgOse4Cer (X1:GM1\alpha ) \hfill \\ III^6 NeuAc,II^3 NeuAc--GgOse4Cer (X2:GT1a\alpha ) \hfill \\ III^6 NeuAc,II^3 NeuAc--NeuGc--GgOse4Cer (X3:GT1b\alpha ) \hfill \\ \end{gathered} $$ The yields of GM1α, GD1aα, and GT1bα, were approximately 150, 20, and 10 µg, respectively, from 10 g of the bovine brain ganglioside mixture. In conjunction with our previous observations, all gangliosides with anti-Chol-1 reactivity were found to contain a common sialyl α2–6N-acetylgalactosamine residue, indicating that this unique sialyl linkage is the specific antigenic determinant. We subsequently examined the biosyntheses of the three novel Chol-1 gangliosides using rat liver Golgi fraction as an enzyme source. The results showed that GM1α, GD1aα, and GT1bα were synthesized from asialo-GM1, GM1a, and GD1b, respectively, by the action of a GalNAc α2-6sialyltransferase.     

Gangliosides GM2, IV4GalNAcGM1b, and IV4GalNAcGC1a as antigens for monoclonal immunoglobulin M in neuropathy associated with gammopathy

It was previously reported that monoclonal IgM from two patients with gammopathy and neuropathy showed similar specificity by reacting with the same group of unidentified minor components in the ganglioside fractions of human nervous tissues (Ilyas, A. A., Quarles, R. H., Dalakas, M. C., and Brady, R. O. (1985) Proc. Natl. Acad. Sci. U. S. A. 82, 6697-6700). Enzymatic degradation, ion-exchange chromatography, and immunostaining of purified ganglioside standards on thin-layer chromatograms have now revealed that the antigenic glycolipids recognized by the IgM from these patients are gangliosides GalNAc beta 1-4Gal(3-2 alpha NeuAc)beta 1-4Glc beta 1-1Cer(GM2), GalNAc beta 1-4Gal(3-2 alpha NeuAc)beta 1-3GalNAc beta 1-4Gal beta 1-4Glc beta 1-1Cer (IV4GalNAcGM1b), and GalNAc beta 1-4Gal(3-2 alpha NeuAc)beta 1-3GalNAc beta 1-4 beta Gal(3-2 alpha NeuAc)beta 1-4Glc beta 1-1-Cer (IV4GalNAcGD1a). The monoclonal IgM appears to be reacting with the terminal [GalNAc beta 1-4Gal(3-2 alpha NeuAc)beta 1-] moiety shared by these three gangliosides and is a useful probe for detecting small amounts of GM2, IV4GalNAcGM1b, IV4GalNAcGD1a, and other gangliosides with the same terminal sugar configuration in tissues. Species distribution studies using the antibody revealed that GM2 is present in the brains and nerves of all species examined, while IV4GalNAcGM1b and IV4GalNAcGD1a exhibit some striking species specificity. GM2, but not IV4GalNAcGD1a, is enriched in purified myelin from human brain.