Glycosphingolipids of human plasma

A number of glycosphingolipids, including 10 gangliosides, not previously identified in human plasma have been characterized. The plasma contains 2 micrograms of lipid-bound sialic acid/ml plasma and 54% of the gangliosides are monosialo, 30% disialo, 10% trisialo, and 6% tetrasialo. Individual glycosphingolipids were purified by high-performance liquid chromatography and thin-layer chromatography, and were characterized on the basis of their chromatographic mobility, carbohydrate composition, hydrolysis by glycosidases, methylation analysis, and immunostaining with anti-glycosphingolipid antibodies. The monosialogangliosides were identified as GM3, GM2, sialosyl(2-3)- and sialosyl(2-6)lactoneotetraosylceramides, sialosyllacto-N-nor-hexaosylceramide, and sialosyllacto-N-isooctaosylceramide. The major gangliosides in the polysialo fractions contained a ganglio-N-tetraose backbone and were identified as GD3, GD1a, GD1b, and GQ1b. The most abundant neutral glycosphingolipids were glucosyl, lactosyl, globotriaosyl, globotetraosyl and lactoneotetraosylceramides. The other neutral glycosphingolipids, tentatively identified by immunostaining with monoclonal antibodies, contained H1, Lea, Leb, and lacto-N-fucopentose III (X hapten) structures.     

Glycosphingolipids from human T-lymphoma MOLT-4 cells

The glycosphingolipids of human lymphoma MOLT-4 cells were studied, using biochemical methods and specific antisera to gangliosides. The major neutral glycosphingolipids were found to be glucosyl- and lactosyl ceramides. GM3, GM2, GM1 and GD1a were identified as ganglioside components.     

Gangliosides and neutral glycosphingolipids of normal tissue and oat cell carcinoma of human lung

Concentration and composition of gangliosides and neutral glycosphingolipids of adult human lung, and lung small cell carcinoma were studied. The structures of the glycolipids were determined by quantitative component determination, enzymic degradation, permethylation and fast atom bombardment mass spectrometry. Adult human lung contained mainly gangliosides with lactosylceramide as the basic core, GM3, GD3 and GT3, and approx. equal proportions (10%) of gangliosides of the gangliotetraosyl- and lactotetraosylceramide series. 18 gangliosides with different carbohydrate moieties were identified: four of them were only found in the tumor tissue. The adult human lung contained 85 nmol (77-120) gangliosides and 140 nmol neutral glycosphingolipids per g wet weight. Globoside was the major neutral glycolipid and there were only minor amounts of glycolipids of the lactotetraose series. In small cell carcinoma tissue the concentration of neutral glycosphingolipids was approximately twice as high than in normal lung tissue, and there was a markedly larger concentration of both lactosylceramide and glycolipids of the lactotetraose series and fucose derivatives of these. The concentration of gangliosides varied between 202 and 415 nmol per g wet weight. Compared to normal lung tissue, the tumor tissue had a lower proportion of GD3, and a higher proportion of complex gangliosides, and they contained five tumor-associated gangliosides: Fuc-GM1, Fuc-GD1b, 3'-LM1, Fuc-3'-LM1 and 6'-nLM1.     

Acidic glycosphingolipids of cock testis elucidated by mass spectrometry and NMR spectroscopy

The main acidic glycosphingolipids (GSLs) of cock testis were identified as GalCer I³-sulfate and gangliosides GM4, GM3, GD3 and GT3. They contained N-acetylneuraminic acid as the major sialic acid, and ceramides composed mainly of sphingosine (dl8:1) and C18–24 non-hydroxy fatty acids. Appreciable amounts of hydroxy fatty acids were detected only in the GM4 preparation.     

Localization of neutral and acidic glycosphingolipids in rat lens

Rat lens was found to contain several neutral and acidic glycosphingolipidsin lens epithelia, cortex and nucleus, and showed developmentalchanges in their content and localization. TLC-immunostainingof gangliosides revealed the enrichment of some ganglio-seriesgangliosides (GM3, GM1, GD3 and GD1b) in lens epithelia andthe presence of GM3 and GD3 in the lens nucleus. Immunohistochemicalstudies confirmed the distribution of GM3 and GM1 in anteriorlens epithelial cells and the cortex, with expression decreasingtoward the lens nucleus. Immunoreaction to GD3 was more intensein the lens nucleus than in epithelial cells. In contrast, theexpression of neolacto-series glycosphingolipids was restrictedto the lens nucleus. In order to investigate the pathologicalchanges of glycosphingolipids in cataract, galactose-inducedcataractous lenses were examined. However, no significant changeswere observed in the content and composition of glycosphingolipids.In addition, Lewis^x epitopes found in human cataractous lenseswere not detected in the cataractous lenses of galactosaemicrats and hereditary cataractous Emory mice. cataract gangliosides glcosphingolipids Lewis^x rat lens     

Characterization of the glycosphingolipids of pig cortical bone and cartilage

Neutral glycosphingolipids and gangliosides were extracted from pig cortical bone and cartilage. To ensure the completeness of extraction, the cortical bone was demineralized and reextracted. Globotriaosylceramide and globoside were noted to be present at high content in the cortical bone. It contained glucosylceramide, lactosylceramide, globotriaosylceramide and globoside as neutral glycosphingolipids at a ratio of 1:0.7:3.1:2.7. In articular cartilage, the ratio was 1:0.7:0.4:0.8. GM3 and GD3 were the major gangliosides in both these tissues. GM3, GM1, GD3, GD1 and GT1 were present at ratios of 1:0.9:0.9:0.1:0.1 in the cortical bone and 1:0:1.2:0.06:0.02 in the cartilage. Neutral glycosphingolipids could be extracted from the cortical bone without the need for demineralization, while most of the gangliosides were extracted after this treatment, implying the occurrence of interactions between gangliosides and minerals in the bone.     

Characterization of acidic glycolipids in porcine plasma

Acidic glycosphingolipids including two sulfatides and five gangliosides were isolated from porcine plasma. They were characterized by NMR spectrometry as galactosylceramide-I³-sulfate and lactosylceramide-II³-sulfate, gangliosides GM3, GD3, GM1, GD1a and fucosyl GM1.     

Modulation of Ganglioside Biosynthesis in Primary Cultured Neurons

Murine cerebellar cells were pulse labeled with [14C]galactose, and the incorporation of radioactivity into gangliosides and neutral glycosphingolipids was examined under different experimental conditions. In the presence of drugs affecting intracellular membrane flow, as well as at 15 degrees C, labeled GlcCer was found to accumulate in the cells, whereas the labeling of higher glycosphingolipids and gangliosides was reduced. Monensin and modulators of the cytoskeleton effectively blocked biosynthesis of the complex gangliosides GM1, GD1a, GD1b, GT1b, and GQ1b, whereas incorporation of radioactivity into neutral glycosphingolipids, such as glucosylceramide and lactosylceramide, as well as GM3, GM2, and GD3 was either increased or unaltered. As monensin has been reported to interfere with the flow of molecules from the cis to the trans stacks of the Golgi apparatus, this result highlights at least one subcompartmentalization of ganglioside biosynthesis within the Golgi system. Inhibitors of energy metabolism affected, predominantly, the biosynthesis of the b-series gangliosides, whereas a reduced temperature (15 degrees C) more effectively blocked incorporation of radiolabel into the a-series gangliosides, a result suggesting the importance of GM3, as the principal branching point, for the regulation of ganglioside biosynthesis.     

Gangliosides GD1a and GM3 induce interleukin-10 production by human T cells

Gangliosides are sialic acid-containing glycosphingolipids and exhibit various physiologic functions. Gangliosides GD1a and GM3 strongly induced interleukin-10 (IL-10) protein secretion and mRNA expression in T cells from normal human subjects while the other gangliosides were ineffective. IL-10 induction by both gangliosides was completely blocked by protein tyrosine kinase (PTK) inhibitors, herbimycin A, genistein, and tyrphostin AG 1288, but not by other signal transduction inhibitors. These results suggest that GD1a and GM3 may induce IL-10 production in T cells by regulating the PTK-dependent signaling pathway. These gangliosides may thus act as important immunoregulators via IL-10.     

Glycolipids of mouse erythroleukemia cells (Friend cells) and their alteration during differentiation

Neutral and acidic glycosphingolipids of Friend cells were characterized in 1) undifferentiated Friend cells (745A), 2) differentiated Friend cells induced with dimethyl-sulfoxide, and 3) solid tumors grown in mice after subcutaneous implantation of Friend cells. The structures of the isolated glycosphingolipids were determined by means of compositional analysis, methylation analysis and enzyme treatment. Gangliosides GD1a and N-acetylgalactosaminyl-GD1a, followed by GM1a and GM2, were the main gangliosides in undifferentiated Friend cells. GD1a and N-acetylgalactosaminyl-GD1a accounted for 45 and 25% of the total gangliosides, respectively. On differentiation, ganglioside GM2 decreased significantly, from 10% to a trace amount. In solid tumors, GD1a was the major ganglioside, whereas in contrast to the situation in the cultured cells, N-acetylgalactosaminyl-GD1a was almost completely absent, and ganglioside GM1b, but not GM1a, was detected. In addition, ganglioside GD1 alpha was detected in the solid tumors. Galactosylceramide, glucosylceramide, and lactosylceramide were the main neutral components in both types of cells, while globotetraosylceramide (globoside), IV3-N-acetyl-galactosaminyl globotetraosylceramide (Forssman glycolipid) and gangliotetraosylceramide (GA1) were major in solid tumors grown in vivo.     

Specific gangliosides increase rapidly in rat liver following partial hepatectomy

Rat liver gangliosides (sialic acid containing glycosphingolipids) were analyzed by HPTLC and HPLC following either partial hepatectomy or sham operation. Analysis of whole liver gangliosides by HPTLC demonstrated that within 6 h after partial (68%) hepatectomy, there was a significant increase in GM1 compared to both sham and control animals. By 48 h, GM1 was further increased and the polysialylgangliosides GD1a, GD1b and GT1b had also risen significantly, whereas changes in GM3 were negligible. Gangliosides associated with the plasma membrane were increased up to 3.5-fold in regenerating liver compared to sham-hepatectomized controls as assessed by HPLC. Although elevations in membrane gangliosides were associated with hepatocyte proliferation, they did not closely follow the growth curve. The time course of changes in ganglioside biosynthesis suggests differential upregulation of GM3 synthase and GD3 synthase in regenerating livers.     

Specific staining on thin-layer chromatograms of glycosphingolipids of neolacto series and gangliosides with a terminal N-acetylneuraminyl residue by different procedures with wheat germ agglutinin

Sensitive staining methods with wheat germ agglutinin were developed for the detection of glycosphingolipids of neolacto series (A) and gangliosides with a terminal N-acetylneuraminyl residue (B) on thin-layer chromatograms. (A) Neolacto series glycosphingolipids were treated by beta-galactosidase on the chromatograms in the presence of taurodeoxycholate. Then the chromatograms were incubated with biotinated wheat germ agglutinin followed by incubation with a complex of avidin and biotinated horseradish peroxidase, and the reaction was detected by 4-chloro-1-naphthol. In the case of gangliosides, sialidase treatment on the chromatograms was performed before the beta-galactosidase treatment. The sensitivity of the method for Lc3Cer, nLc4Cer, sialyl-nLc4Cer, and sialyl-nLc6Cer was 4 pmol, 7.6 pmol, 2.9 pmol and 1.4 pmol, respectively. (B) The gangliosides on the chromatograms were oxidized by periodic acid and reduced by NaBH4. Then the chromatograms were stained with wheat germ agglutinin as mentioned above. As little as 0.5 pmol of GM3, NeuAc-nLc4Cer, and NeuAc-nLc6Cer was detected by this method, whereas the detected limits for these gangliosides were 10 pmol, 10 pmol and 2 pmol, respectively, when periodate oxidation was omitted. GM4, GD3 and GD1a were an order less reactive than GM3, GM2, GM1 or GD1b were not stained under the same condition. In contrast to NeuAc-containing gangliosides, any gangliosides with N-glycolylneuraminic acid were not stained by the method in (B).     

Immunosuppression by human gangliosides: I. Relationship of carbohydrate structure to the inhibition of T cell responses.

Causes of cellular immunodeficiency frequently associated with cancer remain poorly understood. One possible mechanism is tumor cell membrane shedding of immunosuppressive molecules, such as the sialic acid-containing glycosphingolipids, gangliosides. To explore this interesting hypothesis and establish structure-activity relationships, we examined the effects of a series of highly purified human gangliosides on T cell function. In all, ten individual molecular species of two major biosynthetic pathways were compared for their ability to inhibit human T cell proliferative responses. They include GM1, GD1a, GD1b, and GT1b (the predominant normal brain species), and GM4, GM3, GM2, GD3, GD2 and GQ1b. Strikingly, each HPLC-purified molecule, from the simplest monosialoganglioside to the most complex polysialoganglioside, had potent inhibitory activity; even the ganglioside with the most elemental carbohydrate structure (GM4, one sialic acid linked to a monosaccharide) strongly inhibits T cell proliferative responses to tetanus toxoid (ID90 = 1.5 microM). The data also reveal a complex interplay between elements of oligosaccharide structure in determining immunosuppressive activity. Sialic acid is critical to maximal activity, and (i) immunosuppression is most potent in gangliosides containing a terminal sialic acid. (ii) Total desialylation almost abolishes activity and (iii) partial alteration (lactone formation) reduces activity. (iv) Activity is generally but not always higher with higher numbers of sialic acid residues/molecule, and (v) some larger neutral glycosphingolipids retain measurable immunosuppressive activity. Overall, the potent inhibition by gangliosides supports the hypothesis that shedding of these molecules by tumors creates a highly immunosuppressive microenvironment around the tumor, thereby inhibiting the function of infiltrating host leukocytes and contributing to diminished T cell responses in cancer.     

Separation of derivatized glycosphingolipids into individual molecular species by high performance liquid chromatography

The high performance liquid chromatography separation of the perbenzoyl derivatives of the neutral glycosphingolipids (GlcCer, LacCer, GbOse3Cer, GbOse4Cer, and GgOse3Cer) and the p-bromophenacyl and 2,4-dinitrophenyl hydrazide derivatives of the gangliosides (GM4, GM3, GM2, GM1, GD1a) into individual molecular species on a C18 reversed-phase column is described. Peaks were identified by comparing their relative retention times to the relative retention time of the corresponding glycosphingolipid of known molecular species composition. As little as 5 to 10 pmol of each molecular species of neutral glycosphingolipids and 3 to 5 pmol of the gangliosides can be detected. The effects of changes in the proportion of acetonitrile, methanol, and water in the mobile phase and of column temperature on the molecular species separation are described. A procedure for the tentative identification of glycosphingolipid molecular species based on their relative retention times is presented.     

Gangliosides in rat kidney: composition, distribution, and developmental changes

Gangliosides in rat kidney were analyzed for their composition, regional distribution, and developmental changes. Renal tissue from 7-week-old rats showed a GM3-dominant pattern with GD3 and several minor ganglioside components including GM4, GM2, GD1a, and an unknown ganglioside (ganglioside X). The tissue also contained c-series gangliosides that included GT3 as the main component with GT2 in a lesser amount. Ganglioside analysis of cortical and medullary regions of renal tissue suggested the restricted localization of some gangliosides. While GM4 and GD3 were enriched in the cortical region, GM2 was distributed mainly in the medullary area. Renal gangliosides showed unique developmental profiles during a period from Embryonic Day 20 (E20) to 7 weeks postnatal. The content of renal gangliosides increased from E20, reached the highest around Postnatal Day 1, and thereafter, decreased rapidly to the adult level. The ratio of N-glycolylneuraminic acid to total sialic acids in gangliosides tended to change in inverse proportion to the amount of total sialic acids. The composition of major gangliosides in renal tissues shifted from GD3-dominant to GM3-dominant patterns with advancing ages. While GM1 was expressed only at early stages of the development, GM4, GM2, and ganglioside X appeared after Postnatal Day 3. The expression of c-series gangliosides was less affected through the period examined. These results suggest that gangliosides may be implicated with development and function of rat kidney.     

Immunosuppression by human gangliosides. II. Carbohydrate structure and inhibition of human NK activity.

Gangliosides shed by tumors enhance tumor formation, possibly by suppressing host antitumor immune function, and gangliosides purified from animal tissues and cultured cells inhibit human cellular immune function in vitro. Determination of immunosuppressive activity of highly purified gangliosides, to uncover structure-activity relationships, is therefore important. Here we have studied a series of gangliosides obtained from human tissue and determined their effects on human natural killer (NK) activity. Total gangliosides from human brain tissue were moderately inhibitory; 100 nmol/ml reduced NK activity of human nonadherent PBMC by 43%. The influence of carbohydrate structure upon inhibitory activity was determined by study of eight highly (HPLC) purified individual gangliosides. Of these, we unexpectedly found that the two minor brain gangliosides with the simplest carbohydrate structures, GM2 and GM3, were very active inhibitors (75 and 47%, respectively, at 50 nmol/ml). In contrast, the structurally more complex major species, GM1, GD1a, GD1b, GT1b, and two other minor gangliosides, GD2 and GD3, were inactive. Reduced effector-target binding in a single-cell binding assay by GM2 but not GM3 suggests different mechanisms of inhibition by these two active gangliosides. Since GM2 and GM3 are present in high concentrations in, and are shed by, several common human tumors (e.g., neuroblastoma, melanoma, and glioma), their ability to inhibit NK cytotoxicity supports the hypothesis of a role of shed tumor gangliosides in the enhancement of tumor formation.     

Thematic review series: sphingolipids. Ganglioside GM3 suppresses the proangiogenic effects of vascular endothelial growth factor and ganglioside GD1a

Gangliosides are sialic acid-containing glycosphingolipids that have long been associated with tumor malignancy and metastasis. Mounting evidence suggests that gangliosides also modulate tumor angiogenesis. Tumor cells shed gangliosides into the microenvironment, which produces both autocrine and paracrine effects on tumor cells and tumor-associated host cells. In this study, we show that the simple monosialoganglioside GM3 counteracts the proangiogenic effects of vascular endothelial growth factor (VEGF) and of the complex disialoganglioside GD1a. GM3 suppressed the action of VEGF and GD1a on the proliferation of human umbilical vein endothelial cells (HUVECs) and inhibited the migration of HUVECs toward VEGF as a chemoattractant. Enrichment of added GM3 in the HUVEC membrane also reduced the phosphorylation of vascular endothelial growth factor receptor 2 (VEGFR-2) and downstream Akt. Moreover, GM3 reduced the proangiogenic effects of GD1a and growth factors in the in vivo Matrigel plug assay. Inhibition of GM3 biosynthesis with the glucosyl transferase inhibitor, N-butyldeoxynojirimycin (NB-DNJ), increased HUVEC proliferation and the phosphorylation of VEGFR-2 and Akt. The effects of NB-DNJ on HUVECs were reversed with the addition of GM3. We conclude that GM3 has antiangiogenic action and may possess therapeutic potential for reducing tumor angiogenesis.     

High-affinity anti-ganglioside IgG antibodies raised in complex ganglioside knockout mice: reexamination of GD1a immunolocalization

Gangliosides, sialic acid-bearing glycosphingolipids, are highly enriched in the vertebrate nervous system. Anti-ganglioside antibodies are associated with various human neuropathies, although the pathogenicity of these antibodies remains unproven. Testing the pathogenic role of anti-ganglioside antibodies will be facilitated by developing high-affinity IgG-class complement-fixing monoclonal anti-bodies against major brain gangliosides, a goal that has been difficult to achieve. In this study, mice lacking complex gangliosides were used as immune-naive hosts to raise anti-ganglioside antibodies. Wild-type mice and knockout mice with a disrupted gene for GM2/GD2 synthase (UDP-N-acetyl-D-galactosamine : GM3/GD3 N-acetyl-D-glactosaminyltransferase) were immunized with GD1a conjugated to keyhole limpet hemocyanin. The knockout mice produced a vigorous anti-GD1a IgG response, whereas wildtype littermates failed to do so. Fusion of spleen cells from an immunized knockout mouse with myeloma cells yielded numerous IgG anti-GD1a antibody-producing colonies. Ganglioside binding studies revealed two specificity classes; one colony representing each class was cloned and characterized. High-affinity monoclonal antibody was produced by each hybridoma : an IgG1 that bound nearly exclusively to GD1a and an IgG2b that bound GD1a, GT1b, and GT1aalpha. Both antibodies readily readily detected gangliosides via ELISA, TLC immune overlay, immunohistochemistry, and immunocytochemistry. In contrast to prior reports using anti-GD1a and anti-GT1b IgM class monoclonal antibodies, the new antibodies bound avidly to granule neurons in brain tissue sections and cell cultures. Mice lacking complex gangliosides are improved hosts for raising high-affinity, high-titer anti-ganglioside IgG antibodies for probing for the distribution and physiology of gangliosides and the pathophysiology of anti-ganglioside antibodies.     

Enhanced expression of a-series gangliosides in fibroblasts of patients with peroxisome biogenesis disorders

Peroxisome biogenesis disorders (PBD) are classified into Zellweger syndrome (ZS), infantile Refsum disease (IRD) and neonatal adrenoleukodystrophy. Disturbances in the differentiation of neural cells such as migration arrest are characteristic of PBD. So far the pathogenesis of these disturbances is not clearly understood. We describe an altered metabolism of glycosphingolipids in PBD which has not yet been investigated. We observed an increased amount of a-series gangliosides, GM2, GM1 and GD1a, in the fibroblasts of patients with ZS and IRD. Gangliosides GM1 and GD1a were not present in detectable amounts in normal subjects. A key step in the synthesis of a-series gangliosides is a transfer of GalNAc to ganglioside GM3, so we determined the level of ganglioside GM3 by immunohistochemical methods. We found a granular structure, which was positive toward anti-ganglioside GM3 antibody in the cytoplasm of the patients' fibroblasts. In control cells, the cell membrane was slightly positive toward anti-GM3 antibody. These results may help to clarify the pathogenesis of PBD with respect to the functional roles of glycosphingolipids in cell differentiation, proliferation and apoptosis.     

Role of Host Glycosphingolipids on <Emphasis Type="Italic">Paracoccidioides brasiliensis</Emphasis> Adhesion

Binding of yeast forms to human lung fibroblast cultures was analyzed, aiming to better understand the initial steps of Paracoccidioides brasiliensis infection in humans. A significant P. brasiliensis adhesion was observed either to fibroblasts or to their Triton X-100 insoluble fraction, which contains extracellular matrix and membrane microdomains enriched in glycosphingolipids. Since human lung fibroblasts express at cell-surface gangliosides, such as GM1, GM2, and GM3, the role of these glycosphingolipids on P. brasiliensis adhesion was analyzed by different procedures. Anti-GM3 monoclonal antibody or cholera toxin subunit B (which binds specifically to GM1) reduced significantly fungal adhesion to fibroblast cells, by 35% and 33%, respectively. Direct binding of GM1 to yeast forms of P. brasiliensis was confirmed using cholera toxin subunit B conjugated to AlexaFluor^®488. It was also demonstrated that P. brasiliensis binds to polystyrene plates coated with galactosylceramide, lactosylceramide, trihexosylceramide, GD3, GM1, GM3, and GD1a, suggesting that glycosphingolipids presenting residues of beta-galactose or neuraminic acid at non-reducing end may act as adhesion molecules for P. brasiliensis. Conversely, no binding was detected when plates were adsorbed with glycosphingolipids that contain terminal residue of beta-N-acetylgalactosamine, such as globoside (Gb4), GM2, and asialo-GM2. In human fibroblast (WI-38 cells), GM3 and GM1 are associated with membrane rafts, which remain insoluble after treatment with Triton X-100 at 4°C. Taken together, these results strongly suggest that lung fibroblast gangliosides, GM3 and GM1, are involved in binding and/or infection by P. brasiliensis.