Structure of a glycolipid reacting with monoclonal IgM in neuropathy and with HNK-1

An acidic glycolipid antigen that reacts with monoclonal IgM in patients with demyelinating neuropathy and with the mouse monoclonal antibody, HNK-1, was purified from human peripheral nerves. This lipid sharing antigenic determinants with the myelin-associated glycoprotein was shown to be an unusual glucuronic acid-containing sulfated glycosphingolipid with five sugars, but without sialic acid. Mild acid methanolysis converted the GlcUA to its methyl ester, removed the acidic sulfate group and abolished the antigenicity. Results from chemical, enzymatic, infrared, and mass spectral analysis suggested the following structure with a sulfate in a position that remains to be determined: GlcUA beta 1----3Gal beta 1----4GlcNAc beta 1----3Gal beta 1----4Glc beta 1----1 ceramide.     

Carbohydrate analysis of chicken heart glycolipids

Neutral and acidic glycolipids were extracted from chicken hearts. The neutral and acidic compounds were separated by preparative thin-layer chromatography into eight and two fractions, respectively. Total hydrolysis by mineral acid, permethylation analysis, and sequential cleavage with exoglycosidases showed the presence of glycolipids that belong to the globo- and gala-oligosaccharide series, i.e., the monohexosylceramides Glc-Cer and Gal-Cer, the dihexosylceramides Gal beta 1-4Glc-Cer and Gal alpha 1-4Gal-Cer, the tetrahexosylceramides GalNAc beta 1-3Gal alpha 1-4Gal beta 1-4Glc-Cer and GalNAc alpha 1-3GalNAc beta 1-3Gal alpha 1-4Gal-Cer (III3GalNAc alpha-Ga3Cer) and four subfractions of the Forssman glycolipid GalNAc alpha 1-3GalNAc beta 1-3Gal alpha 1-4Gal beta 1-4Glc-Cer. With the notable exception of III3GalNAc alpha 1-Ga3Cer, all glycolipids with terminal GalNAc alpha 1-3GalNAc1 reacted on thin-layer chromatograms with a monoclonal anti-Forssman antibody. The major components of the acidic fraction glycolipids were characterized as the lactose-based gangliosides Glac1 (GM3) and Glac2 (GD3).     

Expression and regulation of UDP-glucuronate: neolactotetraosylceramide glucuronyltransferase in the nervous system

Sulfoglucuronyl glycolipids (SGGLs) are temporally and spatially regulated molecules present in the nervous system during its development. The characteristics of the rat brain enzyme glucuronyltransferase involved in the biosynthesis of SGGLs have been described. The enzyme catalyzes the transfer of glucuronic acid (GlcA) from UDP-GlcA to terminal galactose of the neolacto (type 2) series of glycolipids to form beta 1-3-linked glucuronyl neolacto glycolipids. The enzyme was highly specific for the neolacto series of acceptor glycolipids, neolactotetraosylceramide (nLcOse4Cer), neolactohexaosylceramide (nLcOse6-Cer), and neolactooctaosylceramide (nLcOse8Cer) and was different from the drug-inducible phenol:GlcA transferase. Considerable activity of GlcA transferase was present in the adult rat cerebral cortex, even though SGGLs almost completely disappeared from the cortex by postnatal day 15. In the cerebellum, although levels of SGGLs increased with development, the specific activity of GlcA transferase declined. The results indicated that GlcA transferase was not a regulatory enzyme controlling the expression of SGGLs. Measurements of the levels of nLcOse4Cer and nLcOse6Cer in these neural tissues indicated that the availability of these precursors may regulate the differential expression of SGGLs seen previously. GlcA transferase was significantly reduced in the cerebellar Purkinje cell degenerating murine mutant (pcd/pcd), which is consistent with the loss of SGGLs in the cerebellum of this mutant and specific association of these glycolipids with Purkinje cells.     

Glycosphingolipids of porcine pancreas

Neutral and acidic glycosphingolipids were purified from porcine pancreas by chromatography on columns of DEAE-Sephadex and Iatrobeads. The chemical structures of the purified glycolipids were determined by carbohydrate analysis, methylation analysis, enzyme treatment, fatty acid analysis, NMR and IR. The major glycolipid of porcine pancreas was Gal(alpha,1-4)Gal(beta,1-)ceramide. Gangliosides GM3 and GD3 were major acidic components and galactosylceramide 3-sulfate was also found.     

Biosynthesis in vitro of GlcA beta 1-3nLcOse4Cer by a novel glucuronyltransferase (GlcAT-1) from embryonic chicken brain

A novel glucuronyltransferase (GlcAT-1) has been detected in embryonic chicken brains. This enzyme catalyzes the biosynthesis in vitro of glucuronic acid containing glycolipids starting from neolactotetraosylceramide (nLcOse4Cer) and neolactohexaosylceramide (nLcOse6Cer). The activity is present primarily in the Golgi-rich membrane fraction and can be extracted (60%) from the membrane using a neutral detergent, Nonidet P-40, at pH 7.0. The detergent-solubilized GlcAT-1 is stable (70%) at -20 degrees C for at least 4 months. Both membrane-bound GlcAT-1 and solubilized GlcAT-1 show similar pH optima, 6.5-7.0, in HEPES buffer. The Km values were 15 and 200 microM with UDP-[14C] GlcA and nLcOse4Cer, respectively, when the detergent-solubilized supernatant fraction was used as enzyme source. The purified 14C radioactive product that comigrated with chemically characterized GlcA beta 1-3nLcOse4Cer (GlcA-nLc4) also yielded a positive immunostain with monoclonal antibody (human IgM-RI). The anomeric linkage was established as beta-linked GlcA to the terminal galactose of the substrate, as evidenced by 90-99% cleavage of the terminal [14C] GlcA by purified Helix pomatia and limpet glucuronidases. Permethylation studies of the radioactive product obtained from [6-3H]Gal beta 1-4LcOse3Cer and non-radioactive UDP-GlcA showed the presence of 2,4,6-tri-O-methylgalactose in the hydrolyzed enzymatic product. These studies established the structure of the biosynthesized product from nLcOse4Cer as GlcA beta 1-3Gal beta 1-4 GlcNAc beta 1-3Gal beta 1-4Glc-ceramide.     

Characterization of two glucuronic acid-containing glycosphingolipids in larvae of the green-bottle fly, Lucilia caesar

Two glucuronic acid-containing glycosphingolipids were purified from larvae of the green-bottle fly, Lucilia caesar by DEAE-Sephadex and Iatrobeads column chromatography. Structures of these acidic glycolipids, glycolipids X and Y, were elucidated by means of sugar analysis, permethylation, enzymatic hydrolysis, negative-ion fast atom bombardment mass spectrometry, and NMR studies. Glycolipid X was determined to have the following structure: GlcA beta 1-3Gal beta 1-3GalNAc alpha 1-4 GalNAc beta 1-4 GlcNAc beta 1-3Man beta 1-4Glc beta 1-1 ceramide. The other acidic glycolipid, glycolipid Y contains a phosphoethanolamine residue linked through the 6-hydroxy group of the N-acetyl-glucosamine unit of glycolipid X. The ceramide moieties were composed of saturated fatty acids (16:0-22:0) and tetradeca- and hexadeca-4-sphingenines. Based on the structural similarity of the ceramide moieties it appears likely that glycolipid X is an intermediate from which glycolipid Y is synthesized by addition of a phosphoethanolamine residue.     

Glycosphingolipid composition of a renal cell line (MDCK) and its ouabain-resistant mutant

Glycosphingolipids were isolated from a canine kidney cell line (MDCK) and its ouabain-resistant mutant (MDCK-OR) by solvent extraction, mild alkaline methanolysis, a DEAE-Sephadex column, and preparative TLC. The glycolipids were characterized by their mobilities on TLC, an analysis of carbohydrates as trimethylsilyl methyl glycosides and acetates of partially methylated alditols, as well as by treatment with specific glycosidases. In the neutral glycolipid fraction of both cell lines, galactosylceramide (GalCer), glucosylceramide (GlcCer), lactosylceramide (LacCer), digalactosylceramide (Ga2Cer), globotriaosylceramide (Gb3Cer), globoside (Gb4Cer), and the Forssman antigen (IV3GalNAc alpha-Gb4Cer) were identified. The contents of Ga2Cer (4.4 nmol/mg protein), Gb3Cer (0.6), Gb4Cer (2.9), and IV3GalNac alpha-Gb4Cer (19.5) in MDCK-OR were 1.4- to 2.1-fold higher than those in MDCK, while the concentrations of GlcCer (5.3) and LacCer (1.4) in MDCK-OR were about half of those in MDCK. Among acidic glycolipids of MDCK-OR, galactosyl sulfatide (GalCer-I3-sulfate) and lactosyl sulfatide (LacCer-II3-sulfate) were increased to 1.9 (2.7-fold) and 0.2 nmol/mg protein (2.0-fold), respectively, as compared to MDCK. However, N-acetylneuraminosyllactosylceramide (GM3), the predominant ganglioside in both cell lines, was decreased to about one third of the level (1.5 nmol/mg protein) in the parent MDCK (4.7 nmol/mg protein). The fatty acid of the glycolipids in both cell lines consisted mainly of saturated acids of 16, 18, 22, and 24 carbons.     

Modes of shedding of glycosphingolipids from mouse lymphoma cells

To characterize the process by which glycolipids are shed from cell membranes, the cellular and supernatant glycolipids were compared from a variant of the mouse lymphoma L5178Y which had been selected for strong expression of the neutral glycolipid gangliotriaosylceramide (GgOse3Cer). This glycolipid was present in three forms which differed in their fatty acid composition. Whereas the major cell-associated form of GgOse3Cer contained C24 fatty acids, the predominant form shed into the culture supernatant contained C16 fatty acids. Ultracentrifugation of the culture medium yielded a pellet with a GgOse3Cer profile similar to that of the cells and a supernatant enriched in the C16 fatty acid form. Gel filtration of the culture medium revealed two GgOse3Cer-containing pools. The first was excluded from Sepharose CL-2B and had a GgOse3Cer profile similar to that of the cells, while the second migrated with proteins in the range of 25,000-500,000 daltons and was enriched in the C16 fatty acid form. These results suggest two forms in which glycolipids are released from cell membranes. The first is in a large complex, possibly a membrane vesicle, which retains the glycolipid profile of the membrane of intact cells while the second form appears to result from the preferential release of particular glycolipid components.     

Isolation and characterization of a monosialosylgangliopentaosyl ceramide from Xenopus laevis oocyte.

A monosialosylgangliopentaosyl ceramide was isolated from Xenopus laevis oocytes. It represented 5.8% of the total acidic glycosphingolipids. From the results of sugar-composition analysis, enzymatic hydrolysis, permethylation analysis, and negative ion fast atom bombardment mass spectrometry, the structure of the ganglioside was determined to be as follows: [sequence: see text] The predominant species of fatty acids were alpha-hydroxy fatty acids, h22:0, h24:0, and h24:1. The long chain bases of this ganglioside consisted mainly of d18:1 sphingosine and phytosphingosine. Other acidic glycolipids were also characterized. The most abundant component of acidic glycolipids was sulfatide, which represented 85.7% of the total acidic glycolipid mixture. GM3, GM2, GM1a, and GD1a were also detected.     

Biosynthesis of GM1b and similar neolactoseries gangliosides by a partially purified chicken skeletal muscle sialyltransferase. Effect of sphingomyelin and acetylcholine

An alpha 2----3 glycolipid galactosyl sialyltransferase (SAT3/4) has been partially purified from embryonic chicken skeletal muscle. It is preserved in 50 mM Hepes buffer (pH 6.8) containing 1% Triton CF-54 and 20% glycerol at -70 degrees C for a period of 6 months without loss of activity. The SAT3+4 preparation transfers sialic acid to nLcOse4Cer, nLcOse6Cer and GgOse4Cer with respective Km values of 1.4, 0.83 and 0.45 mM. The activity is stimulated 2-3-fold at high substrate concentration and 6-8-fold at low substrate concentration; 0.01 and 0.005 mumol for asialo GM1 and 0.025 and 0.01 mumol for other glycolipids in the presence of phosphatidylcholine (PC) and sphingomyelin (SM) at an optimum concentration 0.75%. A higher concentration is inhibitory. SM from chicken muscle is more effective than that from bovine brain and the stimulation is qualitatively proportional to that of the saturated fatty acyl content of SM. Free fatty acids (palmitic and stearic), their sodium salts, other choline compounds including choline chloride, phosphorylcholine and acetylcholine either do not have any effect or are inhibitory. Acetylcholine, even in the presence of SM and PC, is strongly inhibitory (70%).     

Diplococcal beta-galactosidase with a specificity reacting to beta 1-4 linkage but not to beta 1-3 linkage as a useful exoglycosidase for the structural elucidation of glycolipids

Diplococcal beta-galactosidase, which is known to be useful for the structural studies of glycoprotein-linked oligosaccharides, was found to show the same substrate specificity in cleaving Gal beta 1-4 linkages of glycolipids as that of the oligosaccharides. The optimum conditions of beta-galactosidase in the 80% ammonium sulfate precipitates of the culture medium of Streptococcus (Diplococcus) pneumoniae were determined with nLcOse4Cer radiolabeled by the galactose oxidase-NaB3H4 procedure. Detergent was required for the highest activity, and different combinations of several buffers and detergents showed different properties in stimulating beta-galactosidase, and in enhancing or suppressing N-acetyl-beta-hexosaminidase which was contaminated in the enzyme preparation. The optimum pH was found to be at 6.5, and specific activity and Km were 8.1 nmol/mg protein/h and 1 nmol, respectively. While more than 70% of beta-galactose was liberated from LacCer and nLcOse4Cer within 1 h under the optimum conditions to form GlcCer and nLcOse3Cer, respectively, none was liberated from LcOse4Cer, GalCer, GgOse4Cer, GbOse3Cer, IV3 alpha GalnLcOse4Cer, and Il3NeuAcGgOse4Cer, showing the substrate specificity solely to Gal beta 1-4 linkage.     

Glycosphingolipids of porcine blood: human blood group A and H antigens with type 1 chain in erythrocytes and plasma

Glycosphingolipids were purified from porcine erythrocytes and plasma. Two minor glycolipids with human blood group A and H antigenicities were found in both sources as components. The two antigenic glycolipids were identified as a hexaglycosylceramide (IV3 alpha GalNAc,IV2 alpha Fuc-Lc4Cer) for the A antigen and pentaglycosylceramide (IV2 alpha Fuc-Lc4Cer) for the H antigen and belonged to lactoseries (type 1 sugar chain) in contrast to those with neolacto core (type 2 sugar chain) in human erythrocytes, thereby endorsing biochemically the previous serological observations that the A antigen on porcine erythrocytes is uptake from plasma, probably the H antigen being the case. In addition to major glycolipids of globoseries in red cells and plasma, a variety of acidic glycolipids including two classes of sulphatides (sulphated galactosylceramide and sulphated lactosylceramide) and five classes of gangliosides (GM3, GD3, GM1, fucosyl GM1 and GD1a) containing N-acetylneuraminic acid and N-glycolylneuraminic acid were obtained from plasma.     

Characterization of solubilized GlcAT-1 (UDP-GlcA: nLcOse4Cer beta 1-3 glucuronyltransferase) activity from embryonic chicken brain and its inhibition by D-erythro-sphingosine

Glycolipid glucuronyltransferase activity (GlcAT-1) has been solubilized and characterized from 19-day-old embryonic chicken brain Golgi-rich membranes. The enzyme catalyzes the biosynthesis in vitro of GlcA beta 1-3nLcOse4Cer glycolipid using neolactetraosylceramide (nLcOse4Cer, Gal beta 1-4GlcNAc beta 1-3Gal beta-1-4Glc-Cer) as the substrate. The membrane-bound enzyme shows optimum activity in the presence of neutral detergents such as Triton CF-54, Triton DF-12, and Nonidet P-40. Approximately 60% of the enzyme activity can be solubilized from the Golgi membrane by Nonidet P-40. The solubilized GlcAT-1 activity is inhibited by different salts such as NaCl, NaBr, NaI, and NaOAc, but not by sodium fluoride (up to 0.4 M concentration). Desialyzed alpha 1 acid glycoprotein (SA alpha 1AGP) can be used as a substrate for glucuronyltransferase. Competition studies between glycolipid (nLcOse4Cer) and glycoprotein SA alpha 1AGP) substrates show a mixed type of inhibition. Phospholipids, in particular phosphatidylglycerol, stimulate solubilized GlcAT-1 activity, while D-erythro-sphingosine, a metabolite of glycosphingolipids, is inhibitory (50% inhibition at 0.8 mM D-erythro-sph). These results demonstrate that both phospholipid as well as sphingosine might be involved in modulating glucuronyltransferase activity.     

Detection of the L2/HNK-1 Carbohydrate Epitope on Glycoproteins and Acidic Glycolipids of the Insect Calliphora vicina

The same or a very similar carbohydrate determinant, as represented by some sulfated, glucuronic acid-containing glycosphingolipids of human peripheral nerve, occurs on several adhesion molecules in the mammalian nervous system. In the present study, the occurrence of this epitope on glycoproteins and glycolipids of the fly, Calliphora vicina, was investigated by Western blot analysis and thin-layer chromatogram immunostaining. Several monoclonal antibodies recognizing an epitope on various neural cell adhesion molecules, designated L2 (334, 336, 349, and 412); the monoclonal antibody HNK-1 (recognizing an epitope on human natural killer cells); and a human IgM M-protein were found to react by Western blot analysis with various glycoproteins from larval and adult brains, although the intensity of staining of bands recognized by each antibody varied. Acidic glycolipids from pupae were also recognized, but only by the L2 antibody 334 and IgM M-protein. After desulfation of the acidic glycolipid fraction, the immunostaining pattern remained the same, an observation suggesting that the L2/HNK-1 epitope on insect acidic glycolipids contains a nonsulfated, glucuronic acid moiety. These observations indicate that the L2/HNK-1 carbohydrate structure occurs not only in vertebrates but also in insects on both glycoproteins and glycolipids, a finding suggesting a high degree of phylogenetic stability of this functionally important carbohydrate.     

Glycosphingolipids of rabbit endometrium and their changes during pregnancy.

The glycolipids of nonpregnant and pregnant rabbit endometrium were characterized using a combination of biochemical and immunochemical techniques. Quantitative analyses indicated a 70% decline in acidic glycolipid (ganglioside) content during early pregnancy (day 6), and a 2.5-fold increase in neutral glycolipid content during later pregnancy (day 26). The major gangliosides of rabbit endometrium were identified by thin-layer chromatography as GM3 and GD3, with minor amounts of GM1, GD1a and GT1b. The major neutral glycolipids were identified similarly as globo-series structures Gb3 and Gb4. Monoclonal antibodies (mAbs) directed to glycolipid antigens permitted the detection of additional glycolipid species, including sialylated, sulfated and fucosylated lacto-series structures. Difucosyl Ley structure (defined by mAb AH-6) and sulfated-galactosyl structure (defined by mAb VESP 6.2) were identified by indirect immunofluorescence along the luminal surface of the endometrium during the implantation period. Rapid changes in the glycolipid composition of endometrial cells during early pregnancy may facilitate embryo adhesion and trophectoderm outgrowth during implantation.     

Structure of sulfated glucuronyl glycolipids in the nervous system reacting with HNK-1 antibody and some IgM paraproteins in neuropathy

Novel sulfated glucuronic acid-containing glycolipids have been identified in the nervous system. These glycolipids are highly antigenic and share antigenic determinants with several nervous system glycoproteins, such as neural cell adhesion molecules, myelin-associated glycoprotein, and ependymins. The structure of the major antigenic glycolipid from human peripheral nerve was determined by chemical and enzymatic degradation, incorporation studies, sugar analysis after permethylation, pertrimethylsilylation, and gas liquid chromatography-mass spectrometry techniques as well as fast atom bombardment-mass spectrometry of the native antigen. The following structure was established for the major antigenic glycolipid. sulfate-3-GlcA beta(1---3)Gal beta(1----4)GlcNAc beta(1----3)Gal beta(1----4)Glc beta(1----1)-ceramide. The major fatty acids in the ceramide were 18:0, 18:1, 24:0, and 24:1, with C18-sphingenine as the long chain base.     

Glycolipids of the bovine pineal organ and retina

Neutral and acidic glycolipids from the bovine pineal organ and neutral glycolipids from the bovine retina were characterized. The chemical structures of the isolated glycolipids were determined by means of carbohydrate analysis, methylation analysis, enzyme treatment, fatty acid analysis, long chain base analysis, mass spectrometry, NMR spectroscopy, and IR spectroscopy. GM3, GD3, and GT1 were the major bovine pineal organ gangliosides, GD3 accounting for 75% of the total gangliosides. Galactosylceramide, glucosylceramide, and lactosylceramide were found in both the bovine pineal organ and retina. Sulfatide was also present in both tissues. It had already been reported that the major bovine retina ganglioside was GD3 (Handa, S. & Burton, R.M. (1969) Lipids 4, 205-208). The glycolipid patterns of the two tissues were very similar to each other and quite different from those of other tissues.     

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.     

Accumulation of a globo-series glycolipid having Gal alpha 1-3Gal in PC12h pheochromocytoma cells

In a previous paper, we reported the presence of globoside as a major neutral glycolipid in PC12 pheochromocytoma cells [Ariga, T., Macala, L. J., Saito, M., Margolis, R. K., Greene, L. A., Margolis, R. U., & Yu, R. K. (1988) Biochemistry 27, 52-58]. Recently, we found that subcloned PC12h cells accumulated another unusual neutral glycolipid. In order to characterize this glycolipid, PC12h cells were subcutaneously transplanted into rats. The induced tumor tissue accumulated two major neutral glycolipids, which were purified by Iatrobeads column and preparative thin-layer chromatographies. One of the glycolipids was found to be globoside, and the other had a globotriaosyl structure with an additional terminal Gal alpha 1-3 residue. Its structure was determined by fast atom bombardment mass spectrometry, two-dimensional proton nuclear magnetic resonance spectrometry (2D NMR), permethylation study, sequential degradation with exoglycosidase, and mild acid hydrolysis to be Gal(alpha 1-3)Gal(alpha 1-4)Gal(beta 1-4)Glc(beta 1-1')Cer.     

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.