Formation of thromboxane B2 and hydroxyarachidonic acids in purified human lymphocytes in the presence and absence of PHA.

The metabolism of exogenous and endogenous [14C] arachidonc acid was studied in purified human peripheral blood lymphocytes carefully freed of contaminating platelets. Formation of products co-migrating in a number of different solvent systems with 5-hydroxyarachidonic acid (5-HETE), thromboxane B2 (TB2), prostaglandins and probably 12-hydroxyarachidonic acid (12-HETE) was demonstrated. In cells prelabeled with [14C] arachidonic acid, phytohemagglutinin (PHA) produced substantial (3.5- to 12-fold) increases in 5-HETE, 12-HETE, and TB2 radiolabeling. The metabolism of exogenous [14C] arachidonic acid was much less affected by PHA. Since PHA releases cell-bound arachidonic acid, it appears that the response involving endogenous label is due to increased availability of free arachidonic acid rather than induction of arachidonic acid-metabolizing enzymes. Various inhibitors of arachidonic acid metabolism exerted similar effects in lymphocytes to those described previously in other tissues providing a possible basis for interpreting their inhibitory effects on mitogenesis, described in the preceding paper.     

Isolation and characterization of gangliosides from pig lymphocytes

Two major gangliosides from pig spleen lymphocytes, accounting for 57% of the total lipid-bound sialic acids, were isolated and purified to homogeneity by column chromatography on DEAE-Sephadex and silica gel. They were identified as GM3 (II3Neu5GcLacCer), and GD3 (II3(Neu5Gc)2LacCer), by thin-layer chromatography in comparison with standards and by analysis of the constituent sugars. The major fatty acids of these gangliosides were stearic acid and myristic acid, respectively. In addition to these gangliosides, GD2 and bands comigrating on thin-layer chromatography with authentic GM2, GM1, GD1a and GD1b were found. These compounds also occur in pig peripheral blood lymphocytes, where, however, GD3 represents about 70% of the total lipid-bound sialic acid.     

Interaction of the extracellular domain of the epidermal growth factor receptor with gangliosides.

Ganglioside GM3 inhibits epidermal growth factor (EGF)-dependent cell proliferation in a variety of cell lines. Both in vitro and in vivo, this glycosphingolipid inhibits the kinase activity of the EGF receptor (EGFR). Furthermore, membrane preparations containing EGFR can bind to GM3-coated surfaces. These data suggest that GM3 may interact directly with the EGFR. In this study, the interaction of gangliosides with the extracellular domain (ECD) of the EGFR was investigated. The purified human recombinant ECD from insect cells bound directly to ganglioside GM3. The ganglioside interaction site appears to be distinct from the EGF-binding site. In agreement with previous reports on the effects of specific gangliosides on EGFR kinase activity, the ECD preferentially interacted with GM3. The order of relative binding of other gangliosides investigated was as follows: GM3 GM2, GD3, GM4 > GM1, GD1a, GD1b, GT1b, GD2, GQ1b > lactosylceramide. These data suggest that NeuAc-lactose is essential for binding and that any sugar substitution reduces binding. In agreement with the specificity of soluble ECD binding to gangliosides, GM3 specifically inhibited EGFR autophosphorylation. Identification of a ganglioside interaction site on the ECD of the EGFR is consistent with the hypothesis that endogenous GM3 may function as a direct modulator of EGFR activity.     

Gangliosides modulate the activity of the plasma membrane Ca(2+)-ATPase from porcine brain synaptosomes

We systematically examined the effects of gangliosides on the plasma membrane Ca(2+)-ATPase (PMCA) from porcine brain synaptosomes. Our results showed that GD1b (two sialic acid residues) stimulated the activity, GM1 (one sialic acid residue) slightly reduced the activity, while asialo-GM1 (no sialic acid residue) markedly inhibited it, suggesting that sialic acid residues of gangliosides are important in the modulation of the PMCA. We also examined the oligosaccharide effects by using GM1, GM2, and GM3 whose only difference was in the length of their oligosaccharide chain. GM1, GM2, and GM3 reduced the enzyme activities, whereas GM2 and GM3 were potent inhibitors. Gangliosides affect both affinity for Ca(2+) and the Vmax of enzyme. It was observed that GD1b and GM2 increased the affinity of the enzyme for Ca(2+). GD1b, GM2 affected the Vmax with an increase of GD1b, but decreases of GM2. The study of the affinity for ATP and the Vmax of enzyme in the presence of gangliosides showed that GD1b and GM2 had little effect on the ATP binding to the enzyme, but the Vmax was apparently changed. Moreover, the effects of gangliosides are additive to that of calmodulin, suggesting that the modulation of PMCA by gangliosides should be through a different mechanism. The conformational changes induced by gangliosides were probed by fluorescence quenching. We found that fluorescent quenchers (I(-) and Cs(+)) with opposite charges had different accessibility to the IAEDANS binding to the PMCA in the presence of gangliosides. An apparent red shift (25nm) with increased maximum of fluorescence spectrum was also observed in the presence of GD1b.     

Gangliosides from human melanoma immunomodulate response of T cells to interleukin-2

The gangliosides expressed by normal melanocytes are predominantly GM3 (greater than 90%) and GD3 (less than 5%). Malignant melanoma can express several other types of gangliosides in significant quantities, including GM2 and GD2. Melanoma patients can develop an immune response against some of these ganglioside antigens on autologous melanoma cells. The four major gangliosides expressed by human melanoma cells (GM3, GD3, GM2, and GD2) were examined for their immunomodulatory effect on lymph node lymphocytes from melanoma patients. Gangliosides were added exogenously to lymphocytes grown in the presence of IL-2. Preferential interactions of specific melanoma gangliosides on IL-2 stimulation were found. While GM2 and GD2 enhanced the lymphocyte response to IL-2, GM3 and GD3 significantly inhibited this response. GM2 and GD2 differ from GM3 and GD3 by the presence of a terminal N-acetylgalactosamine. Since different gangliosides can up-regulate and down-regulate lymphocyte responses to IL-2, the ganglioside phenotype of melanoma cells may play a major role in determining whether an individual tumor causes immune stimulation or suppression.     

Comparative study of lymph node gangliosides and blood serum of normal and T-lymphotrophic baboons

The gangliosides from the lymph nodes and blood sera of normal and T-lymphomic baboons were studied. In lymph nodes the major gangliosides were identified as GM3 and GD3, those in blood sera--as GM3, GM1 and GD3. Gangliosides GM3 and GD3 contained N-acetyl as well as N-glycoloyl neuraminic acids. In gangliosides isolated from lymph nodes and blood sera of T-lymphomic baboons the levels of N-glycoloyl neuraminic acid markedly exceeded that in normal tissues. In tumour lymph nodes the GM3/GD3 ratio was shifted towards GD3.     

Glycosphingolipids of human aorta

The structures of the main gangliosides of human aorta (intima and media) were elucidated. The main component (67%) was identified as N-acetylneuraminosyl-lactosylceramide (ganglioside GM3). The aorta tissue contained also gangliosides GM1, GD3, GD1a, and GT1. All sialic acid residues in gangliosides were present as N-acetyl-neuraminosyl derivatives. Among neutral glycosphingolipids of human aorta, the main components were identified as glucosylceramide, lactosylceramide, globotriaosylceramide and globotetraosylceramide. The preliminary data suggest that the composition of the investigated glycosphingolipids in tissue might vary upon atherosclerosis lesions of aorta.     

Composition of gangliosides from ovine testis and spermatozoa

Gangliosides were extracted and purified from ovine testis and ejaculated spermatozoa which contained, respectively, 57 and 9 nmol lipid-bound sialic acid per gram wet weight. Fourteen gangliosides were resolved by thin-layer chromatography of testicular gangliosides, of which eleven were purified in sufficient quantity to enable a complete compositional analysis of the carbohydrate residues to be performed. None of the gangliosides contained fucose, but several contained N-glycolylneuraminic acid as a component of the sialic acid species. Relative migration on thin-layer chromatograms relative to known standards, compositional analysis, and selective degradation by specific enzymes were used as the basis for identification. Testis contained members of the ganglio series (GM1, GD1a, GD1b, GT1b, GQ1b), hematoside series (GM3, GD3), and sialosylparagloboside in the molar ratio of 54:40:6, respectively. Testicular GM3, GM1, GD3, GD1a, GD1b and GT1b ran as double bands on thin-layer chromatography which could be accounted for by observed differences in the fatty acid moiety. In addition, the slower migrating band of each pair contained some or all of its sialic acid residues as N-glycolylneuraminic acid, whereas the faster migrating band contained exclusively N-acetylneuraminic acid, except for GM3 where N-acetylneuraminic acid was the sole species in both bands. Thin-layer chromatography of sperm gangliosides revealed seven bands comigrating with equivalent testicular gangliosides. These coincided with the slower migrating bands of testicular GM3, GM1, GD3, GD1a, both bands of GD1b, and possibly both bands of GT1b. Sperm contained only trace amounts of sialosylparagloboside but, in addition, two unidentified bands which were absent from testis were also observed. The molar ratio of the ganglio series to the hematoside series in sperm was 42:58 with GM3 accounting for 42% of total gangliosides.     

Detection of gangliosides of the GM1b type on high-performance thin-layer chromatography plates by immunostaining after neuraminidase treatment

A method for the detection of GM1b-type gangliosides in complex mixtures of gangliosides was developed. The procedure involves separation of gangliosides on high-performance thin-layer chromatography plates, fixation of the silica gel, treatment with neuraminidase from Vibrio cholerae in the absence of detergent, and incubation of the plates with GgOse4Cer-specific antibodies. Alkaline phosphatase-conjugated second antibodies are used to visualize bound first antibodies by generating a blue dye from 5-bromo-4-chloro-3-indolylphosphate. The procedure is capable of detecting as little as 30 ng of gangliosides. Gangliosides from murine T lymphocytes and from human brain served as examples. Besides GM1b, GD1 alpha is also detectable by this method, whereas the human brain gangliosides GM1a, GD1a, GD1b, and GT1b are not, because they are neuraminidase resistant. Since terminally sialylated gangliosides such as GM1b were described as virus receptors, and certain other terminally sialylated gangliosides are discussed as tumor markers, this method should be useful to screen gangliosides from different tissues or cell lines for the presence of such components, especially if only small amounts of material are available.     

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.     

Gangliosides released by the perfused rat liver are associated to high density lipoprotein.

We examine here the delivery of gangliosides from the perfused rat liver into the perfusate. One hour after the administration of [3H]GM1 to recirculating perfused livers, almost 80% of the perfusate radioactive gangliosides were recovered associated to the HDL fraction. This fraction was relatively enriched in radioactive GD1a. The pattern of endogenous gangliosides from perfused livers, rat serum and perfusates were very different: GM3 was the main liver ganglioside, GM1 and GD1a were the most abundant in perfusates being GM3 almost absent; GM3, GM1 and GD1a were present in rat serum in similar proportions. Using a non-recirculating perfusion protocol, radioactive gangliosides were found in the HDL fraction since 15 minutes after the administration of [3H]GM1. These results suggest that rat liver supplies the perfusates with some gangliosides and that they are associated to HDL. These facts arise the possibility that the liver is one of the source of serum gangliosides.     

Occurrence of glycosylation and deglycosylation of exogenously administered ganglioside GM1 in mouse liver.

Ganglioside GM1, 3H-labelled at the level of terminal galactose or of sphingosine, was intravenously injected into Swiss albino mice and some steps in its metabolic fate in the liver were investigated. After administration of [3H]sphingosine-labelled GM1 all major liver gangliosides [GM3, GM2, GM1, GD1a-(NeuAc,NeuGl)] became radioactive, the radioactivity residing in all cases on the sphingosine moiety. The specific radioactivity was highest in GM1, which carried about 53% of the radioactivity incorporated into gangliosides, followed by GM2, with 34.5% of incorporated radioactivity, GM3 and GD1a-(NeuAc,NeuGl), both with about 5% of incorporated radioactivity. After administration of [3H]galactose-labelled GM1 the only radioactive gangliosides present in the liver were GM1 and GD1a-(NeuAc,NeuGl), the former carrying about 95% of the total ganglioside-incorporated radioactivity, the latter about 3%. Both gangliosides were radioactive exclusively in the terminal galactose residue. According to these results exogenously administered GM1, after being taken up by the liver, is mainly degraded to GM2 and GM3, a part being, however, sialylated to GD1a-(NeuAc,NeuGl). All this suggests that exogenous GM1 may be involved in the metabolic routes of endogenous liver gangliosides.     

Differences in liver ganglioside patterns in various inbred strains of mice

The ganglioside patterns in the liver of different inbred and hybrid strains of mice were investigated. The inbred strains were Balb/cAnNCr1BR, C57BL/6NCr1BR, DBA/2NCr1BR. C3H/HeNCr1BR; the hybrid strain was the Swiss albino. The following major gangliosides were found to be present in mouse liver: GM3-NeuAc; GM3-NeuGl, GM2 [a mixture of one species carrying N-acetylneuraminic acid (NeuAc) and one carrying N-glycollylneuraminic acid (NeuGl)], GM1 and GD1a-(NeuAc,NeuGl). The qualitative and quantitative patterns of liver gangliosides were markedly different in the various inbred strains of mice; in Balb/cAnNCr1BR strain, ganglioside GM2 was preponderant (99.2% of total ganglioside content); in C57BL/6NCr1BR, the major ganglioside was GM2 (90.4%), followed by GM3-NeuAc (5.6%) and GM3-NeuGl (4.0%); in DBA/2NCr1BR, GM2 accounted for 77.1%, GD1a-(NeuAc,NeuGl) 18.9% and GM1 3.1% of gangliosides; in C3H/HeNCr1BR, GM2 constituted 50.6%, GM1 22.8% and GD1a-(NeuAc,NeuGl) 22.1%. In the hybrid Swiss albino mice, liver ganglioside composition markedly varied from one animal to another, GM3-NeuGl, GM2 and GD1a-(NeuAc,NeuGl) being the predominant gangliosides in the various cases.     

Binding specificities of heat-labile enterotoxins isolated from porcine and human enterotoxigenic Escherichia coli for different gangliosides

The binding specificities of heat-labile enterotoxins (LTp and LTh) isolated from porcine and human enterotoxigenic Escherichia coli on human erythrocytes were studied by competitive binding assays using different gangliosides as inhibitors. The binding of 125I-labeled LTp to neuraminidase-treated human type A erythrocytes was most effectively inhibited by ganglioside GM1. Ganglioside GM1 was 11 and 105 times more potent than gangliosides GD1b and GM2, respectively. Gangliosides GD1a, GT1b, and GM3 were much less potent. Similar results were also obtained in competitive binding assays with the 125I-labeled B subunit of LTh and neuraminidase-treated human type B erythrocytes, and in those with 3H-labeled ganglioside GM1 and LTp-coupled Sepharose 4B. The binding of 3H-labeled ganglioside GM1 to LTp was not effectively inhibited by galactose-beta(1----3)N-acetyl-D-galactosamine at the highest concentration used. These findings suggest that the combining sites of LTp and LTh may be specific for at least the galactose-N-acetyl-D-galactosamine-galactose (N-acetyl-neuraminic acid) portion of ganglioside GM1.     

Gangliosides in normal human serum. Concentration, pattern and transport by lipoproteins

The total content and pattern of gangliosides were determined in the unfractionated sera of 11 healthy human adults and in isolated lipoproteins. The total content of lipid-bound sialic acid was 10.5 +/- 3.2 nmol/ml serum. The ganglioside profile consisted of more than ten different components. The major ganglioside was GM3, followed by GD3, GD1a, GM2, GT1b, MG-3 (sialosyllactoneotetraosylceramide), GD1b and GQ1b. Traces of four additional gangliosides could not be quantified reliably. Ganglioside patterns did not vary in sera taken from healthy adults of different age and sex. Approximately 98% of human serum gangliosides were transported by serum lipoproteins, predominantly by LDL (66%), followed by HDL (25%) and VLDL (7%). The quantitative distribution of individual gangliosides in VLDL and LDL was almost the same as that in the unfractionated serum; some differences existed with the ganglioside profile in HDL.     

Differential effect of external calcium on the oxygenated metabolism of endogenous and exogenous arachidonic acid in platelets

The oxygenation of arachidonic acid into thromboxane B2 (TXB2), 12-hydroxy-heptadecatrienoic (HHT) and 12-hydroxy-eicosatetraenoic (12-HETE) acids has been examined in human platelets in the absence or presence of 1mM calcium. From endogenous arachidonic acid, external calcium did not affect the formation of cyclo-oxygenase products (TXB2 and HHT) but enhanced that of 12-HETE when thrombin at high concentrations was the agonist. Dose-response curves performed with thrombin and collagen revealed that increased stimulation resulted in higher ratios of 12-HETE/HHT. On the other hand external calcium did not alter significantly the synthesis of either products from exogenous arachidonic acid and the total conversion of the substrate was unchanged. We conclude that extracellular calcium may facilitate the liberation of arachidonic acid from platelet phospholipids when induced by high thrombin concentrations. The excess of arachidonic acid liberated would then be diverted towards the lipoxygenase pathway.     

Inhibitory effects of gangliosides on immune reactions of antibodies to neutral glycolipids in liposomes

Specific immune damage to liposomes containing Forssman or globoside glycolipid was inhibited when the liposomes also contained ganglioside. The activity of a human monoclonal Waldenstr?m macroglobulin antibody to Forssman glycolipid was inhibited by each of three gangliosides tested, GM3, GD1a and GD1b. Inhibition of the monoclonal antibody was dependent on the amount of ganglioside in the liposomes, and was diminished by reducing the relative amount of ganglioside. Inhibition also correlated positively with the number of ganglioside sialic acid groups, with inhibition by GT1b greater than GD1a greater than GM3. Naturally occurring human antibodies to globoside glycolipid were detected in 18% (9 out of 50) of normal human sera tested. Immune damage to liposomes induced by each of the three highest-reacting human anti-globoside sera was blocked by liposomal GM3. We conclude that gangliosides can strongly influence immune damage to membranes induced by antibody interactions with adjacent neutral glycolipids.     

Asymmetric distribution of gangliosides in rat renal brush-border and basolateral membranes

Highly enriched brush-border and basolateral membranes isolated from rat renal cortex were used to study the distribution of endogenous gangliosides in the two distinct plasma membrane domains of epithelial cells. These two membrane domains differed in their glycolipid composition. The basolateral membranes contained more of both neutral and acidic glycolipids, expressed on a protein basis. In both membranes, the neutral glycolipids corresponding to mono-, di-, tri- and tetraglycosylceramides were present. The basolateral membranes contained more diglycosylceramide than the brush-border membranes. The major gangliosides found were GM4, GM3, and GD3 with minor amounts of GM1 and GD1a. The latter were identified and quantified by sensitive iodinated cholera toxin binding assays. When the distribution of individual gangliosides was calculated as a percent of total gangliosides, the brush-border membranes were enriched with GM3, GM1 and GD1a compared to the basolateral membranes, which were enriched with GD3 and GM4. The observation of a distinct distribution of glycolipids between brush-border and basolateral membranes of the same epithelial cell suggests that there may be a specific sorting and insertion process for epithelial plasma membrane glycolipids. In turn, asymmetric glycolipid biogenesis may reflect differences in glycolipid function between the two domains of the epithelial plasma membrane.     

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.     

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.