GD3, a prominent ganglioside of human melanoma. Detection and characterisation by mouse monoclonal antibody

Mouse monoclonal antibody AbR24 has a high degree of specificity for human melanoma cells when tested on viable cultured cells using the protein A mixed hemagglutinin serological assay. The antigen detected by this antibody has been isolated from melanoma cells and shown to be GD3 ganglioside by compositional and partial structural analysis and by comparison with authentic GD3 in thin layer chromatography (TLC). AbR24 reacts with authentic GD3, but not with any other ganglioside tested. Using TLC and reactivity with AbR24, a wide range of cells and tissues was examined for the presence of GD3. A new serological assay, termed glycolipid-mediated immune adherence, was devised for assaying the reactivity of AbR24 with gangliosides. Melanomas (cultured cells or tumor tissue) were shown to have GD3 and GM3 as major gangliosides. Other cells and tissues examined also contained GD3, but usually only in low amounts. Melanomas (and MOLT-4, a T cell line) were characterized by a simplified ganglioside profile with GD3 and GM3 as major components. The apparent discrepancy between the ubiquitous presence of GD3 and the serological specificity of AbR24 for melanoma cells can be explained in terms of localization and concentration of GD3 in different cells.     

Complex gangliosides affect GD3 accessibility to antibody in developing neuronal cells

Ganglioside expression of embryonic chick retina cells developed in vitro was analyzed by indirect immunofluorescence. Immature neurons were GD3 positive cells and the labeling was chiefly distributed all over their cell membrane. Mature neurons became GD3 negative and expressed complex gangliosides of the a- and b-pathways; nevertheless, the content of GD3 accounted for approximately 40% of the total gangliosides in these cells. Neuraminidase hydrolysis pointed out that GD3 was located in membrane of differentiated cells. The frequency of cells with the GD3 immunostain localized in restricted area of membrane of undifferentiated neurons increased significantly after adding a mixture of bovine brain gangliosides (largely complex gangliosides). Antibody binding to immobilized GD3 showed a dose-dependent inhibition by adding a mixture of bovine brain gangliosides, GM1, GD1a or asialo-GM1. Glycosphingolipids with shorter oligosaccharide chains, as cerebrosides or sulfatides, did not affect this binding. These results suggest that, concomitant with the accretion of content of complex gangliosides, a rearrangement in the membrane would occur, which progressively masks GD3 to its antibody. This rearrangement might affect putative ganglioside functions involved in neuronal differentiation.     

Regulated expression system for GD3 synthase cDNA and induction of differentiation in Neuro2a cells

It was reported recently by our group that the transfection of GD3 synthase cDNA into Neuro2a cells, a neuroblastoma cell line, caused cell differentiation with neurite sprouting (Kojima et al., 1994; J. Biol. Chem., 269, 30451-30456). To further explore this phenomenon in detail, we applied tetracycline-regulated system to control the expression of GD3 synthase cDNA in Neuro2a cells. Under this system, the process of Neuro2a cell differentiation was rather slow, about 3 weeks of cell culturing in the absence of tetracycline was required for most cells to extend the neurite-like structures. The RNase protection assay indicated that the mRNA of GD3 synthase gene was first detected between 4 h and 8 h after the gene was activated and kept at approximately the same level through the process. Furthermore, time-course analysis of total ganglioside expressions has shown that GD3 and GT1b gangliosides appeared on the cell surface early in the process and reached the maximum level around day 6. We also found that the amounts of GD3 and GT1b on the cell surface started to decrease after day 6 and returned gradually to the basal values after 3 weeks. On the other hand, GQ1b and GD1b were started to be synthesized at early stage and the amounts were continuously to increase through the whole Neuro2a morphological change process. In addition, time-course analysis by flow cytometry method for GD3 and GQ1b suggested that the conversions of simple gangliosides to more complex gangliosides may be required to induce the Neuro2a differentiation. Our results indicated that the combination of cDNA transfection and regulated gene expression is a powerful tool to study the function of glycolipids and should have a general application to the glycobiology field.     

Antibodies against GD2 ganglioside can eradicate syngeneic cancer micrometastases

After 10 years of clinical trials in patients with advanced cancer, monoclonal antibodies (mAbs) against cell surface antigens have not lived up to their initial promise. One such cell surface antigen is the ganglioside GD2. GD2 is richly expressed at the cell surfaces of human neuroblastomas, sarcomas, and melanomas. We have described a murine lymphoma (EL4) that is syngeneic in C57BL/6 mice and expresses GD2, a mAb against GD2 (mAb 3F8), and we have prepared a conjugate vaccine (GD2-keyhole limpet hemocyanin plus immunological adjuvant QS-21) that consistently induces antibodies against GD2. We demonstrate here, for the first time in a syngeneic murine model, that passively administered and vaccine-induced antiganglioside antibodies prevent outgrowth of micrometastases, and we use this model to establish some of the parameters of this protection. The level of protection was proportional to antibody titer. Treatment regimens resulting in the highest titer antibodies induced the most protection, and protection was demonstrated even when immunization was initiated after tumor challenge. Treatment with 3F8 1, 2, or 4 days after i.v. tumor challenge was highly protective, but waiting until 7 or 10 days after challenge resulted in minimal protection. The results were similar whether number of liver metastases or survival was used as the end point. These results suggest that unmodified mAbs or antibody-inducing vaccines against GD2 (and possibly other cancer cell surface antigens) should be used exclusively in the adjuvant setting, where circulating tumor cells and micrometastases are the primary targets.     

Coexpression of GD3 ganglioside with CD45RO in resting and activated human T lymphocytes

The ganglioside GD3 is preferentially expressed on the surface of malignant T cell lymphoblasts and on resting T cells which express the memory cell phenotype, CD45RA-CD29+. However, GD3 expression in activated T cells and its potential function in proliferating normal and malignant T cells are unclear. Utilizing three-color immunostaining and flow cytometry, we examined changes in the expression of GD3 in conjunction with the RA and RO isoforms of CD45 during in vitro T cell activation. GD3 was equally expressed in resting CD4 and CD8 cells and was specifically found in the CD45RO+RA population. Activation of T cells with PHA resulted in an increased percentage of GD3+ cells. This increase was evident by the first day and was observed in the CD45RO (naive cell) population; by 2 days, GD3 was expressed heterogeneously in a large population of CD45RO+RA+ cells. Further activation of T cells with PHA or anti-CD3 monoclonal antibody (OKT3) resulted in a further increase in GD3-expressing cells, and the increase in GD3 density correlated with increased CD45RO and loss of CD45RA. In contrast, increases in GD3 and interleukin-2 receptor (CD25) expression in response to PHA or OKT3 occurred independently, indicating that the GD3/ CD45RO coexpression observed was not a general consequence of cell activation. The results provide evidence for specific comodulation of GD3 and CD45RO during T cell mitogenesis, and thus suggest that these molecules may colocalize on the T cell surface.     

Ganglioside synthesis during the development of neuronal polarity. Major changes occur during axonogenesis and axon elongation, but not during dendrite growth or synaptogenesis

Changes in the levels and types of gangliosides occur during neuronal differentiation and development, but no studies have correlated these changes with defined events in neuronal morphogenesis. Here, we have analyzed the relationship between ganglioside synthesis and the development of axons and dendrites in polarized neurons, using hippocampal neurons cultured in such a way that axons and dendrites are generated by a defined sequence of events and in which there is virtually no contamination by glial cells. Neurons were labeled with [4,5-3H]dihydrosphingosine, which was rapidly incorporated into cells and metabolized to 3H-labeled glycosphingolipids. The rate of 3H-labeled glycosphingolipid synthesis was directly proportional to the initial rate of [4,5-3H]dihydrosphingosine uptake and was linear versus time for up to 9 h of incubation. The major changes in 3H-labeled ganglioside synthesis occurred during the period of axonogenesis and rapid axon growth. During axonogenesis, there was a significant increase in the synthesis of complex gangliosides (i.e. GM1, GD1a, GD1b, and GT1b) with a corresponding reduction in the synthesis of glucosylceramide and ganglioside GD3. During the stage of rapid axon growth, the ratio of a- to b-series gangliosides increased significantly. However, during dendritogenesis, dendrite growth, and synaptogenesis, there was little change in ganglioside synthesis, with a small and gradual increase in the ratio of a- to b-series gangliosides and an increase in the synthesis of gangliosides GD1a and GT1b. These results indicate that despite major changes in neuronal morphology and functionality as neurons mature, changes in ganglioside synthesis are restricted to early stages of neuronal development, namely axonogenesis and rapid axon elongation.     

Differential expression of gangliosides and galactolipids in fetal human oligodendrocytes and astrocytes in culture

The phenotypic expression of gangliosides and galactolipids was investigated using primary cultures of fetal human oligodendrocytes and astrocytes. These glial cells were isolated from fetal human brains of 12-18 weeks' gestation. Expression of gangliosides and galactolipids in oligodendrocytes and astrocytes was investigated by double labeling immunocytochemistry using rabbit antibodies specific for galactocerebroside (GalC, a cell type-specific marker for oligodendrocyte) and glial fibrillary acidic protein (GFAP, a cell type-specific marker for astrocyte) in combination with a panel of mouse monoclonal antibodies which react with specific gangliosides or galactolipids. A considerable number of GalC+ oligodendrocytes expressed intense immunoreactivities specific for GM3 (19%) and GM2 (45%) gangliosides. Approximately 11% of GalC+ oligodendrocytes expressed GM4 immunoreactivity, and smaller numbers of GalC+ oligodendrocytes expressed GD3 (4%), GD2 (1%), GT1b (5%) and A2B5 (3%) immunoreactivities. However, GalC+ oligodendrocytes did not express GM1, GD1a, GT1b or GQ1c. Major populations of GalC+ oligodendrocytes immunolabeled by rabbit anti-GalC antibody reacted with anti-GalC mAb (Ranscht mAb, 81%) or by anti-sulfatide mAb (O4 mAb, 91%). A considerable number of GFAP+ astrocytes expressed intense GM2 (26%) and GD2 (15%) immunoreactivities, while a smaller population expressed intense GM3 (3%), GD3 (6%) and GM4 (4%) immunoreactivities. Weak immunoreactions specific for GD1b, A2B5 and sulfatide were found in less than 1% each of GFAP+ astrocytes, while GFAP+ astrocytes did not express GM1, GD1a, GT1a, GT1b or GQ1b. These results indicate that GM3, GM2 and sulfatide are expressed in a major population of GalC+ oligodendrocytes, while GM3, GM2, GD3, GD2, and GM4 are expressed in a small but distinctive population of GFAP+ astrocytes. Our results suggest that GM4, GM1 and GD3, which are utilized as markers for adult human oligodendrocytes and myelin, are not the major ganglioside constituents in cultured fetal human oligodendrocytes.     

Patterns of ganglioside expression in B cell neoplasms

Twenty seven B cell neoplasms were examined by high performance thin layer chromatography (HPTLC) and immune thin layer chromatography (ITLC) to determine ganglioside expression. Patterns of expression in the cells were compared with conventional morphology, genotype, and glycoprotein immunophenotype. Patterns of ganglioside expression were found for each of the tumor types analyzed (5 acute lymphoblastic lymphomas (ALL), 5 Burkitt's Lymphomas (BL), 4 chronic lymphocytic leukemias (CLL), and 3 diffuse poorly differentiated lymphomas (DPDL), 7 diffuse histiocytic lymphomas (DHL), and 3 multiple myelomas (MM). GM3 was the predominant ganglioside found in all B cell neoplasms except multiple myeloma where GM2 was equivalent to GM3. GM1 was detected by ITLC in all B cell tumors, but significant amounts were found by HPTLC only in ALL, CLL, and DHL. Small amounts of GD3 and GD2 were found in several B cell neoplasms. Significant amounts of other gangliosides were not found. The expression of GM2 on the MM cell lines, a cell type derived from outside of the nervous system, is unusual. This high level of expression was also seen in metabolic labeling studies. GM2 was readily detectable in the SKMM1 human multiple myeloma cell line by flow cytometry and served as a target for human complement-mediated cytotoxicity. Although the functions of gangliosides are largely known, the patterns of gangliosides found for this system of human B cell malignancies may serve to provide targets for specific immunotherapy and clues to their functions.     

n-Butyrate mediation of ganglioside expression of human and murine cancer cells demonstrates relative cell specificity

1. n-Butyrate, a short chain fatty acid produced by colonic fermentation, induces differentiation in human neoplastic cell lines, and reduces expression in vitro of a sialyltransferase that glycosylates N-linked glycoproteins in hepatoblastoma cells. Gangliosides are amphipathic, sialylated glycosphingolipids that undergo profound changes in many transformed cells and may protect neoplastic cells from host immune surveillance. Colonic mucosal cells are exposed to luminal short-chain fatty acid concentrations of up to 80 mmol/l, and there is some evidence that short-chain fatty acids may alter ganglioside expression in colon cancer cells. 2. Because of the importance of gangliosides in cancer pathogenesis, we investigated the effects of n-butyrate on ganglioside expression of colonic (human and murine) and non-colonic cancer cells. 3. Three separate colon cancer cell lines (LS174T, T84 and MCA-38), when butyrate treated, demonstrated striking amplification of specific individual gangliosides. However, the total lipid-bound sialic acid content of gangliosides of butyrate-treated LS174T cells diminished. In contrast to earlier reports, n-butyrate did not mediate expression of all gangliosides and specifically did not mediate expression of GM3. This effect persisted even after removal of butyrate. 4. In contrast, exposure of extracolonic cells to butyrate, including cervical cancer (HeLa) and laryngeal cancer (HEp-2) cell lines in this study and hepatoblastoma cells (Hep G2) in our previous work, caused no detectable changes in ganglioside expression. 5. In conclusion, our results indicate a relative tissue specificity of butyrate-mediated alterations in ganglioside expression that is not universal but is limited to specific gangliosides.     

Influenza virus neutralizing antibodies and IgG isotype profiles after immunization of mice with influenza A subunit vaccine using various adjuvants

The influence of various adjuvants on the development of influenza virus neutralizing antibodies and distribution of anti-influenza virus IgG isotypes after immunization of mice with influenza A (H3N2) subunit vaccine was investigated. Serum titres of influenza virus neutralizing antibodies and titres of influenza specific IgG isotypes were determined by a neutralization enzyme immunoassay (N-EIA) and a cell-associated antigen enzyme immunoassay (CA-EIA), respectively. Serum antibody titres as measured by the two tests correlated highly (r = 0.82; P < 0.001). N-EIA titres were enhanced by 38- and 34-fold, when L180.5/RaLPS and FCA, respectively, were administered with 1 microgram of vaccine. The adjuvants Q-VAC, L180.5 [W/O/W], L180.5 alone and Montanide ISA 740 were only moderately or not effective in enhancing the immune response to the 1 microgram dose of vaccine. The Q-VAC and L180.5/RaLPS adjuvants favoured IgG2a and IgG2b isotype responses to influenza compared to the other adjuvants. We suggest that N-EIA and CA-EIA may be valuable tools to monitor the effects of adjuvants on the neutralizing antibody and antibody isotype responses after influenza vaccination.     

Structural characterization of the disialogangliosides of murine peritoneal macrophages

Sialoglycosphingolipids (gangliosides) have been increasingly implicated as regulators of membrane signaling events. Macrophage ganglioside patterns dramatically increase in complexity when murine peritoneal macrophages are stimulated in vivo with the appearance of the sialidase-sensitive monosialoganglioside GM1b (cisGM1) as a major component. Gangliosides from stimulated murine peritoneal macrophages were separated into monosialo and polysialo fractions and the polysialo fraction structurally characterized by enzymatic, chemical, and mass spectra methods. All detectable components of the polysialo fraction were determined to be disialogangliosides. Treatment of the polysialo fraction with Clostridium perfringens sialidase produced mostly the sialidase-resistant monosialoganglioside, GM1a, and a minor amount of asialoGM1. Periodate oxidation and mass spectrometry analyses demonstrated the lack of tandem disialo moieties which indicated the absence of GD1b or GD1c (GD1) entities. The combined data showed the major disialogangliosides consisted of GD1a entities comprising IV3-NeuAc,II3NeuAc-GgOse4Cer, IV3-NeuGc,II3NeuAc-GgOse4Cer, IV3NeuAc,II3NeuGc-GgOse4Cer, and IV3-NeuGc,II3NeuGc-GgOse4Cer. Minor components consisted of GD1alpha entities, IV3NeuAc, III6NeuAcGgOse4Cer, IV3NeuGc, III6NeuGc-GgOse4Cer, and also positional isomer(s) of GD1alpha(NeuAc, NeuGc). These isomeric components were identified by collision analysis and tandem mass spectrometry. Consistent with previous analyses, the ceramide portion of all polysialo (disialo) gangliosides contained solely C18 sphingosine with C16 and C24 fatty acid moieties. These results, combined with the previous characterization of macrophage monosialogangliosides, indicate normal murine macrophage ganglioside biosynthesis proceeds along the "a" ganglioside pathway, e.g., GM3-->GM2-->GM1a-->GD1a, and the proposed asialoganglioside or "alpha" pathway, asialoGM1-->GM1b-->GD1alpha. The presence of totally sialidase-sensitive gangliosides appears to be characteristic of functional murine peritoneal macrophages while they are reduced in genetically impaired cells.     

Immunoradionuclide localization of human neuroblastoma xenografted in nude mice using anti-GD2 labelled with I125

Neuroblastoma is the most frequent tumour of the childhood under the age of 5. The staging and the follow up are achieved by MIBG scintigraphy, considered as the method of reference, but sometimes difficult to interpret . The availability of monoclonal antibodies against the ganglioside GD2, expressed on the cell membrane of neuroblastoma and neuro-endocrine cancers offers novel tools that deserve to be carefully explored. We investigated four mouse monoclonal antibodies (3 IgG3: BW704, 7A4, 60C3, and the IgG1 variant of BW704: MAK704), on nude mice xenografted with a human neuroblastoma (REM). Sixty one nude mice were included. The three former MAbs provided tumour imaging, the best results being obtained with BW704, followed by 7A4 and 60C3. MAK704 was disappointing. A control antiphosphorylcholine antibody (P51-1) did not give any tumour image in the three tested mice. Scintigraphy ratios tumour/liver and tumour/muscle reached 20 and 100 with BW704, respectively, on the 10th day. Good imaging quality was already obtained from the 24th h. The tumour uptake, calculated from radioactivity countings of resected samples, reached 22 +/- 3% of injected dose per gramme. These results let us hope that these antibodies could also provide highly contrasted images in humans and could open the way for therapeutic applications.     

Altered ganglioside expression by SH-SY5Y cells upon retinoic acid-induced neuronal differentiation

SH-SY5Y Neuroblastoma cells were used to study the effect of retinoic acid (RA)-induced differentiation on the expression of gangliosides and neuronal markers. In the presence of 10 microM RA, more than 70% of the cells differentiate to a neuronal phenotype within 8 days. They extend long neuritic processes and show an enhanced immuno-expression of neurone-specific enolase (NSE), neurofilament protein (NF-M), and polysialic acid (PSA). SH-SY5Y cells were found to express at least 12 different gangliosides. RA-induced neuronal differentiation led to a decrease in the content of GM2, GD3, and GD2 and to a 3-7 fold increased concentration of the ganglio-tetraosyl gangliosides GM1, GD1a, GT1a, GD1b, and GT1b. Thus, RA-induced neuronal differentiation of SH-SY5Y cells is accompanied by ganglioside changes similar to those observed during embryonic neuronal differentiation.     

Effects of gonadotropin and testosterone treatments on prostate volume and serum prostate specific antigen levels in male hypogonadism

Various monosialo- and disialo-gangliosides and their derivatives were examined by delayed ion extraction matrix-assisted laser desorption ionization time-of-flight mass spectrometry (DE MALDI-TOF MS) in the reflector mode with alpha-cyano-4-hydroxycinnamic acid or 2,5-dihydroxybenzoic acid used as the matrix. Native gangliosides were generally found to give good spectra in the negative ion mode. 2,5-Dihydroxybenzoic acid was a better matrix for gangliosides than alpha-cyano-4-hydroxycinnamic acid, because this matrix seemed to minimize loss of sialic acid and carbon dioxide of gangliosides. About 1 pmol of ganglioside was able to be detected with this matrix. When "A-series" gangliosides such as GD1a and GalNAc-GD1a gave undesirable extra peaks probably due to loss of sialic acid besides molecule-related ion peaks, the methyl-esterification of the gangliosides at the carboxyl groups of sialic acids was found to be necessary to obtain good DE MALDI-TOF mass spectra in the positive ion mode. In contrast, "B-series" gangliosides such as GD1b, GD2, and GD3 gave rise to major dehydrated molecule-related ion [M-H2O-H]- peaks in the negative ion mode without the pretreatment of methyl-esterification. The DE MALDI-TOF mass spectrometric analysis enabled us to distinguish between GD1a and GD1b, which have the same molecular weight. It was also found that not only a purified sample, but also a mixed sample of various gangliosides was amenable to the identification of them by DE MALDI-TOF MS.     

Age-associated alterations in calcium current and its modulation in cardiac myocytes

Stimulatory effects of several types of adjuvants on secondary antibody response to inactivated Newcastle disease virus (iNDV) were examined in chickens. For this purpose, animals were primed with iNDV without adjuvant resulting in a low but significant antibody response, boosted with iNDV plus adjuvant 3 weeks later, and analysed for specific antibody titres in serum 3 weeks after the booster. Water-in-mineral oil emulsion (W/O) caused significant increase in antibody titres measured in an indirect enzyme-linked immunosorbent (ELISA), haemagglutination inhibition (HI), and virus neutralisation (VN) assay. The adjuvants tested included three oil-in-water emulsions (i.e. mineral oil-in-water, sulpholipo(SL)-Ficoll400/squalane-in-water and sulpholipo-cyclodextrin/squalane-in-water), three negatively-charged polymers with high molecular weight (i.e. polyacrylate, polystyrenesulphonate and sulpho(S)-Ficoll400) and two surface-active agents (i.e. dimethyldioctadecylammonium bromide (DDA) and Quil A). These adjuvants enhanced significantly the secondary immune response but none reached the titre obtained with W/O. Combinations of adjuvants with distinct physicochemical properties, i.e. polyacrylate and DDA revealed only slight, beneficial effects. We concluded that the various types of adjuvants tested can stimulate secondary immune responses in primed animals but that W/O is superior.     

Elevated ganglioside concentration in serum and peripheral blood lymphocytes from multiple sclerosis patients in remission

The ganglioside concentration in pooled serum from 20 patients with clinically definite multiple sclerosis (MS) was determined and compared with that in pooled serum from a similar number of healthy blood donors. There as a significant increase in the concentration of ganglioside-bound sialic acid from 691 +/- 57 micrograms/100 ml in the control sera to 926 +/-m 83 micrograms 100 ml in MS patients' sera. The profile of individual gangliosides in the two groups was identical, the four main structures being GM3, GD3, and GD1a and GT1b. The ganglioside pattern and concentration in peripheral blood lymphocytes derived from MS patients and controls was identical with the predominant GM3, and small proportions of Gd3. MS lymphocytes also showed a 39% increase in ganglioside content over control lymphocytes. The implication of such pronounced ganglioside increases is discussed with regard to the impaired immunocompetence of lymphocytes reported in MS.     

Influence of N-glycosylation and N-glycan trimming on the activity and intracellular traffic of GD3 synthase

GD3 synthase (ST8Sia I) transfers a sialic acid in alpha-2-->8 linkage to the sialic acid moiety of GM3 to form the ganglioside GD3. The cDNAs of GD3 synthases predict several putative N-glycosylation sites. In this work we have examined the occupancy of these sites in a chicken GD3 synthase and how they affect its activity and intracellular traffic. COS-7 cells were transfected with an influenza virus hemagglutinin (HA) epitope-tagged form of GD3 synthase (GD3 synthase-HA). Cells acquired GD3 synthase activity, cell surface GD3 immunoexpression, and GD3 synthase-HA immunoreactivity in the Golgi complex. In Western blots, a main GD3 synthase-HA band of 47 kDa was detected, which was radioactive upon metabolic labeling with [2-3H] mannose. Tunicamycin prevented the incorporation of [2-3H]mannose into GD3 synthase-HA, blocked the enzyme activity, and promoted a reduction of the enzyme molecular mass of 6-7 kDa. Timed deglycosylation with N-glycosidase F showed that all three potential N-glycosylation sites of GD3 synthase-HA were glycosylated. The deglycosylated forms were enzymatically more unstable than the native form. Tunicamycin treatment of cells led to retention of GD3 synthase-HA immunoreactivity in the endoplasmic reticulum (ER). Castanospermine and deoxynojirimycin, inhibitors of the ER-processing enzymes alpha-glucosidases I and II, also prevented the exit from the ER but did not essentially affect the enzyme specific activity. 1-Deoxymannojirimycin and swainsonine, inhibitors of mannosidases, did not affect either the enzyme activity or the Golgi localization. Results indicate that (a) N-glycosylation is necessary for GD3 synthase to attain and to maintain a catalytically active folding, and for exiting the ER; and (b) N-glycan trimming in the ER, while not required for enzyme activity, is necessary for proper trafficking of GD3 synthase to the Golgi complex.     

Stimulatory effect of gangliosides on phagocytosis, phagosome-lysosome fusion, and intracellular signal transduction system by human polymorphonuclear leukocytes

Gangliosides are known to be differentiation-inducing molecules in mammalian stem cells. We studied the interaction between the molecular structure of glycosphingolipids (GSLs) and their promoting mechanisms of the phagocytic processes in human polymorphonuclear leukocytes (PMN). The effect of various gangliosides from mammalian tissues on adhesion, phagocytosis, phagosome-lysosome (P-L) fusion and superoxide anion production was examined by human PMN using heat-killed cells of Staphylococcus aureus-coated with GSLs. Gangliosides GM3, GD1a, GD3 and GT1b showed a marked stimulatory effect on the phagocytosis and P-L fusion in a dose-dependent manner, while ganglioside GM1, asialo GM1 and neutral GSLs did not. The relative phagocytic rate of ganglioside GM3-coated S. aureus was the highest among the tested GSLs. Both P-L fusion rate and phagocytosis of S. aureus were elevated significantly when coated with ganglioside GD1a, GD3 or GT1b, and GT1b gave a five times higher rate than that of the non-coated control. These results suggest that the terminal sialic acid moiety is essential for the enhancement of phagocytosis and that the number of sialic acid molecules in the ganglioside is related to the enhancement of the P-L fusion process. On the other hand, the superoxide anion release from PMN was not affected by ganglioside GM2, GM3, GD1a or GT1b. Furthermore, to clarify the trigger or the signal transduction mechanism of phagocytic processes, we examined the effect of protein kinase inhibitors such as H-7, staurosporine (protein kinase C inhibitor), H-89 (protein kinase A inhibitor), genistein (tyrosine kinase inhibitor), ML-7 (myosin light chain kinase inhibitor), and KN-62 (Ca2+/calmodulin-dependent protein kinase II inhibitor) on ganglioside-induced phagocytosis. H-7, staurosporine and KN-62 inhibited ganglioside-induced phagocytosis in the range of concentration without cell damage, while H-89, genistein and ML-7 did not. Moreover, H-7 and KN-62 inhibited ganglioside-induced P-L fusion. These results suggest that protein kinase C and Ca2+/calmodulin-dependent protein kinase II may be involved in the induction of phagocytosis and P-L fusion stimulated by gangliosides.     

Ganglioside GD1alpha functions in the adhesion of metastatic tumor cells to endothelial cells of the target tissue

We studied the role of glycosphingolipids expressed on the cell surfaces of a metastatic tumor cell line. Glycosphingolipid compositions of the low-metastatic murine lymphosarcoma cell line RAW117-P and its sub-line, RAW117-H10, which shows higher metastatic potential for the liver than P cells, were compared. Both types of cells had LacCer, Gg3Cer, and Gg4Cer as the major neutral glycosphingolipids and GM1b and GD1alpha as the gangliosides. There are differences in glycosphingolipid contents, the neutral glycosphingolipid contents in the parental cells being 1.5-fold higher than that in the variant ones. In contrast, the level of GD1alpha in H10 cells was twice as much as that in the P cells; however, the expression of other gangliosides was down-regulated. On the basis of the results of glycosphingolipid analysis, we investigated the functional role of GD1alpha in H10 cells in the adhesion of the tumor cells to the target tissue by using hepatic sinusoidal endothelial (HSE) cells. GD1alpha and GM1b inhibited the adhesion when HSE cells were incubated prior to coculture with the tumor cells. This inhibitory effect by GD1alpha and GM1b was observed within 30 min after addition of H10 cells to HSE cells and was dose dependent. GD1alpha showed a higher inhibitory effect on the adhesion than GM1b, whereas other glycosphingolipids showed no inhibitory effect. Anti-GD1alpha monoclonal antibody also inhibited the adhesion between the H10 and HSE cells. When cultured without fetal bovine serum for 30 min in a various glycosphingolipids-coated dish for bacterial culture, HSE cells adhered to the area coated with GD1alpha but not to areas coated with other glycosphingolipids. HSE cell adhesion depended on the amount of GD1alpha coated on the plate. These data indicate that GD1alpha functions as an adhesion molecule in the process of metastasis of H10 cells.