Glycosphingolipid antigens from Leishmania (L.) amazonensis amastigotes. Binding of anti-glycosphingolipid monoclonal antibodies in vitro and in vivo.

Specific glycosphingolipid antigens of Leishmania (L.) amazonensis amastigotes reactive with the monoclonal antibodies (MoAbs) ST-3, ST-4 and ST-5 were isolated, and their structure was partially elucidated by negative ion fast atom bombardment mass spectrometry. The glycan moieties of five antigens presented linear sequences of hexoses and N-acetylhexosamines ranging from four to six sugar residues, and the ceramide moieties were found to be composed by a sphingosine d18:1 and fatty acids 24:1 or 16:0. Affinities of the three monoclonal antibodies to amastigote glycosphingolipid antigens were also analyzed by ELISA. MoAb ST-3 reacted equally well with all glycosphingolipid antigens tested, whereas ST-4 and ST-5 presented higher affinities to glycosphingolipids with longer carbohydrate chains, with five or more sugar units (slow migrating bands on HPTLC). Macrophages isolated from footpad lesions of BALB/c mice infected with Leishmania (L.) amazonensis were incubated with MoAb ST-3 and, by indirect immunofluorescence, labeling was only detected on the parasite, whereas no fluorescence was observed on the surface of the infected macrophages, indicating that these glycosphingolipid antigens are not acquired from the host cell but synthesized by the amastigote. Intravenous administration of 125I-labeled ST-3 antibody to infected BALB/c mice showed that MoAb ST-3 accumulated significantly in the footpad lesions in comparison to blood and other tissues.

Glycosphingolipid antigens from Leishmania (L.) amazonensis amastigotes. Binding of antiglycosphingolipid monoclonal antibodies in vitro and in vivo

Specific glycosphingolipid antigens of Leishmania (L.) amazonensis amastigotes reactive with the monoclonal antibodies (MoAbs) ST-3, ST-4 and ST-5 were isolated, and their structure was partially elucidated by negative ion fast atom bombardment mass spectrometry. The glycan moieties of five antigens presented linear sequences of hexoses and N-acetylhexosamines ranging from four to six sugar residues, and the ceramide moieties were found to be composed by a sphingosine d18:1 and fatty acids 24:1 or 16:0. Affinities of the three monoclonal antibodies to amastigote glycosphingolipid antigens were also analyzed by ELISA. MoAb ST-3 reacted equally well with all glycosphingolipid antigens tested, whereas ST-4 and ST-5 presented higher affinities to glycosphingolipids with longer carbohydrate chains, with five or more sugar units (slow migrating bands on HPTLC). Macrophages isolated from footpad lesions of BALB/c mice infected with Leishmania (L.) amazonensis were incubated with MoAb ST-3 and, by indirect immunofluorescence, labeling was only detected on the parasite, whereas no fluorescence was observed on the surface of the infected macrophages, indicating that these glycosphingolipid antigens are not acquired from the host cell but synthesized by the amastigote. Intravenous administration of 125I-labeled ST-3 antibody to infected BALB/c mice showed that MoAb ST-3 accumulated significantly in the footpad lesions in comparison to blood and other tissues.

Isolation and possible composition of glucosylceramides from Paracoccidioides brasiliensis.

Twelve different species of neutral monohexosyl ceramides (CMHs) and two species of neutral monohexosyl ceramides were isolated from mycelium and yeast forms of Paracoccidioides brasiliensis, respectively, by a combination of ion-exchange chromatography, HPLC, and HPTLC. The glucosylceramides did not react with sera from patients with paracoccidioidomycosis (PCM). Carbohydrate analysis indicated that CMHs contain glucose. Analysis of 1H-NMR and mass spectrometry data suggest that the structure of the CMHs is Glcp beta 1-->Cer (mycelium forms present 12 different ceramides and yeast forms present 2 different ceramides). The composition of the lipid moieties was analyzed by negative fast atom bombardment mass spectrometry. No glycosphingolipid other than glucosylceramide was detected in P. brasiliensis.

Isolation and possible composition of glucosylceramides from Paracoccidioides brasiliensis

Twelve different species of neutral monohexosyl ceramides (CMHs) and two species of neutral monohexosyl ceramides were isolated form mycelium and yeast forms of Paracoccidioides brasiliensis, respectively, by a combination of ion-exchange chromatography, HPLC, and HPTLC. The glucosylceramides did not react with sera from patients with paracoccidioidomycosis (PCM). Carbohydrate analysis indicated that CMHs contain glucose. Analysis of (1)H-NMR and mass spectrometry data suggest that the structure of the CMHs is Glcpbeta1(Cer (mycelium forms present 12 different ceramides and yeast forms present 2 different ceramides). The composition of the lipid moieties was analyzed by negative fast atom bombardment mass spectrometry. No glycosphingolipid other than glucosylceramide was detected in P. brasiliensis.

Structural characterization of a new galactofuranose-containing glycolipid antigen of Paracoccidioides brasiliensis.

An acidic glycolipid (Band 1), purified from P. brasiliensis by a combination of ion exchange chromatography, HPLC, and HPTLC, was found to be reactive with sera of all patients with paracoccidioidomycosis (PCM). Monosaccharide analysis of Band 1 yielded mannose and galactose in a 2:1 ratio, while mild acid hydrolysis and mild periodate oxidation/NaB3H4 reduction indicated the presence of a terminal galactofuranose. Preliminary analysis of 1H-NMR and MS data suggests that the structure of the glycan is Galf beta 1-->6(Manp alpha 1-->3)Manp beta 1-->2Ins (Ins = myo-inositol). Removal of the galacto-furanose decreased by 60-80% the reactivity of sera from PCM patients with Band 1, suggesting that this residue is immunodominant. With the presumed absence of galactofuranose in mammalian hosts, compounds containing this residue may be useful targets for therapy of several parasitic and fungal diseases.

Monosialogangliosides of human myelogenous leukemia HL60 cells and normal human leukocytes. 1. Separation of E-selectin binding from nonbinding gangliosides, and absence of sialosyl-Le(x) having tetraosyl to octaosyl core.

Previous studies suggested that sialosyl-Le(x) (SLex) is a ligand expressed in human neutrophils and myelogenous leukemia HL60 cells which binds to E-selectin and possibly P-selectin. However, clear data on structures of carbohydrate epitopes in these cells were lacking. A systematic study was therefore initiated, employing a large quantity of HL60 cells (> or = 1200 mL packed) and human leukocytes (approximately 100 mL packed). Gangliosides were extracted, followed by extensive fractionation and examination of the E- and P-selectin binding ability of each fraction. The following results were of particular interest: (i) Only monosialogangliosides having a polylactosamine core with > 10 monosaccharide units (or > 4 N-acetyllactosamine units) showed E-selectin binding under static conditions with thin-layer chromatography overlay technique employing 32P-labeled E-selectin-expressing CHO cells. (ii) Sulfate groups were not detectable in the binding fractions, and di- and trisialoganglioside fractions did not show E-selectin binding under these conditions. (iii) None of the fractions showed P-selectin binding under a similar assay system using 32P-labeled P-selectin-expressing CHO cells. (iv) Major gangliosides of HL60 cells were structures I-XI (shown in Table 1 of text), none of which showed E-selectin binding under the above conditions. (v) SLex gangliosides having tetraosyl to octaosyl ceramide core, which are the major gangliosides of epithelial tumors (shown in Table 2), were completely absent from HL60 cells and neutrophils. Isolation and chemical characterization of ganglioside structures I-XI are described in this paper.

Monosialogangliosides of human myelogenous leukemia HL60 cells and normal human leukocytes. 2. Characterization of E-selectin binding fractions, and structural requirements for physiological binding to E-selectin.

E-selectin binding gangliosides were isolated from myelogenous leukemia HL60 cells, and the E-selectin binding pattern was compared with that of human neutrophils as described in the preceding paper in this issue. The binding fractions were identified as monosialogangliosides having a series of unbranched polylactosamine cores. Structures of fractions 12-3, 13-1, 13-2, and 14, which showed clear binding to E-selectin under the conditions described in the preceding paper, were characterized by functional group analysis by application of monoclonal antibodies, 1H-NMR, FAB-MS, and electrospray mass spectrometry with collision-induced dissociation of permethylated fractions. Fractions 12-3, 13-1, and 13-2 were characterized by the presence of a major ganglioside with the following structure: NeuAc alpha 2-->3Gal beta 1-->4 GlcNAc beta 1-->3Gal beta 1-->4(Fuc alpha 1-->3) GlcNAc beta 1-->3Gal beta 1-->4(Fuc alpha 1-->3)-GlcNAc beta 1-->3Gal beta 1-->4GlcNAc beta 1-->3 Gal beta 1-->4 Glc beta Cer. Fractions 12-3 and 13-2 contained, in addition, small quantities (10-15%) of extended SLex with internally fucosylated structures: NeuAc alpha 2-->3 Gal beta 1-->4-(Fuc alpha 1-->3) GlcNAc beta 1-->3 Gal beta 1-->4(Fuc alpha 1-->3) GlcNAc beta 1-->3 Gal beta 1-->4 (+/- Fuc alpha 1-->3)GlcNA c beta 1-->3 Gal beta beta 1-->4GlcNAc beta 1-->3 Gal beta 1-->Glc Beta Cer. Fraction 13-1, showing stronger E-selectin binding activity than 12-3 and 13-2, contained only a trace quantity (< 1%) of SLex. Fraction 14, which also showed clear binding to E-selectin, was characterized by the presence of the following structures, in addition to two internally monofucosylated structures (XX and XXI, Table 2, text): NeuAc alpha 2-->3Gal beta 1-->4GlcNAc beta 1-->3Gal beta 1-->4(Fuc alpha 1-->3)GlcNAc beta 1-->3 Gal beta 1-->4(Fuc alpha 1-->3)GlcNAc beta 1-->3Gal beta 1-->4 GlcNAc beta 1-->3 Gal beta 1-->4 GlcNAc beta 1-->3 Gal beta 1-->4 Glc beta Cer; andNeuAc alpha 2-->3Gal beta 1-->4GlcNAc beta 1-->3 Gal beta 1-->4(Fuc alpha 1-->3)GlcNAc beta 1-->3Gal beta 1-->4GlcNAc beta 1-->3Gal beta 1-->4 (Fuc alpha 1--3)-GlcNAc beta 1-->3Gal beta 1-->4GlcNAc beta 1-->3Gal beta 1--4Glc beta Cer. SLex determinant was completely absent. Thus, the E-selectin binding epitope in HL60 cells is carried by unbranched terminally alpha 2-->3 sialylated polylactosamine having at least 10 monosaccharide units (4 N-acetyllactosamine units) with internal multiple fucosylation at GlcNAc. These structures are hereby collectively called "myeloglycan". Monosialogangliosides from normal human neutrophils showed an essentially identical pattern of gangliosides with selectin binding property. Myeloglycan, rather than SLex, provides a major physiological epitope in E-selectin-dependent binding of leukocytes and HL60 cells.

Myeloglycan, a series of E-selectin-binding polylactosaminolipids found in normal human leukocytes and myelocytic leukemia HL60 cells.

Sialosyl-Lex (SLex) is assumed to be the binding epitope of E- and P-selectin in normal human neutrophils and myelocytic leukemia HL60 cells. Glycosphingolipid (GSL) fractions from large quantities of normal human neutrophils and HL60 cell extract did not contain SLex GSLs having 6-10 sugar residues, as commonly found in solid tumor cells and tissues. Instead, the binding target of E-selectin was revealed to be a series of long-chain, unbranched polylactosamine GSLs with terminally sialylated, internally alpha 1-->3 polyfucosylated structure as the major component, or having SLex at the terminus and internally polyfucosylated structure as a minor component. These GSLs are hereby collectively termed "myeloglycan." Regardless of the site of fucosylation, all myeloglycans cross-react strongly with "anti-SLex" monoclonal antibodies such as CSLEX, FH6, SNH3, and SNH4.

Human tumor-associated Le(a)-Le(x) hybrid carbohydrate antigen IV3(Gal beta 1-->3[Fuc alpha 1-->4]GlcNAc)III3FucnLc4 defined by monoclonal antibody 43-9F: enzymatic synthesis, structural characterization, and comparative reactivity with various antibodies.

Two Le(a)-cross-reacting monoclonal antibodies (mAbs) were previously established which define complex tumor-associated carbohydrate antigens. The first mAb, 43-9F, was raised against human squamous cell lung carcinoma and shows preferential reactivity with various human cancers over normal cells. Its tumor cell binding activity is best inhibited by a milk oligosaccharide characterized as Le(a)-Le(x) [Mårtensson, S., et al. (1988) Cancer Res. 48, 2125], Gal beta 1-->3[Fuc alpha 1-->4] GlcNAc beta 1-->3Gal beta 1-->4]Fuc alpha 1-->3]-GlcNAc beta 1-->3Gal beta 1-->4Glc (1). The second mAb, ST-421, was raised against human gastric cancer xenograft in nude mice and found to have strong tumor growth-suppressing activity in nude mice. The epitope recognized by ST-421 was chemically identified as Le(a)-Le(a), Gal beta 1-->3 [Fuc alpha 1-->4]GlcNAc beta 1-->3Gal beta 1-->3-[Fuc alpha 1-->4] GlcNAc beta 1-->3Gal beta 1-->4Glc (2) [Stroud, M.R., et al. (1991) J. Biol. Chem. 266, 8439]. Both 43-9F and ST-421 cross-react with Le(a). Identification of the 43-9F antigen as structure 1 (Le(a)-Le(x)) is tentative since it was not based on isolation and chemical characterization of antigen from tumor cells or tissues. We therefore synthesized structure 1 starting from sialyl-nor-hexaosylceramide (VI3NeuAcnLc6), with sequential enzymatic hydrolysis by sialidase and beta-galactosidase followed by addition of beta 1-->3Gal with beta 1-->3 galactosyltransferase. This yielded the hybrid type 1/type 2 chain core structure IV3-(Gal beta 1-->3GlcNAc)nLc4, which was fucosylated with alpha 1-->3/4 fucosyltransferase.(ABSTRACT TRUNCATED AT 250 WORDS)

A revised structure for the disialosyl globo-series gangliosides of human erythrocytes and chicken skeletal muscle.

Disialosyl globo-series gangliosides have previously been isolated from chicken skeletal muscle (E. L. Hogan, R. D. Happel, and J.-L. Chien (1982) Adv. Exp. Med. Biol. 152, 273-278; S. Dasgupta, J.-L. Chien, E. L. Hogan, and H. van Halbeek (1991) J. Lipid Res. 32, 499-506) and human erythrocytes (S. K. Kundu, B. E. Samuelsson, I. Pascher, and D. Marcus (1983) J. Biol. Chem. 258, 13857-13866). In both cases, the structure of this ganglioside was proposed to be NeuAc alpha 2-->3(NeuAc alpha 2-->6)Gal beta 1-->3GalNAc beta 1-->3Gal alpha 1-->Gal alpha 1-->4Gal beta 1-->1Cer (V3NeuAcV6NeuAcGb5Cer). We have reinvestigated the human erythrocyte antigen and now propose an alternative structure differing in the location of the NeuAc alpha 2-->6 residue: NeuAc alpha 2-->3Gal beta 1-->3 (NeuAc alpha 2-->6)GalNAc beta 1-->3Gal alpha 1-->4Gal beta 1-->4Glc beta 1-->1 Cer (V3NeuAcIV6NeuAcGb5Cer). This novel structure is supported by results of 1H-NMR spectroscopy, negative ion fast atom bombardment mass spectrometry, and methylation linkage analysis with capillary gas chromatography--mass spectrometry in both electron impact and chemical ionization modes. Furthermore, based on new results from negative ion fast atom bombardment mass spectrometry and linkage analysis, we propose that the chicken skeletal muscle antigen also has this revised structure, differing only in ceramide composition. The terminal tetrasaccharide of these gangliosides is identical to that of GD1 alpha, NeuAc alpha 2-->3Gal beta 1-->3(NeuAc alpha 2-->6)GalNAc beta 1-->4Gal beta 1-->4Glc beta 1-->1 Cer(IV3NeuAcIII6NeuAcGg4Cer), previously identified in a rat ascites hepatoma cell line (T. Taki, Y. Hirabayashi, H. Ishikawa, S. Ando, K. Kon, Y. Tanaka, and M. Matsumoto (1986) J. Biol. Chem. 261, 3075-3078) and a murine lymphoma cell line with low metastatic potential (K. Murayama, S. B. Levery, V. Schirrmacher, and S. Hakomori (1986) Cancer Res. 46, 1395-1402), although they appear to be immunologically distinct.

Common tetrasaccharide epitope NeuAc alpha 2-->3Gal beta 1-->3(Neu-Ac alpha 2-->6)GalNAc, presented by different carrier glycosylceramides or O-linked peptides, is recognized by different antibodies and ligands having distinct specificities.

A novel globo-series disialoganglioside, disialosyl galactosyl globoside (Structure 1 below), defined by new monoclonal antibody (mAb) RM2, was isolated and characterized as having terminal structure identical to that of ganglio-series ganglioside GD1 alpha (Structure 2) and a common mucin-type epitope (Structure 3) widely distributed in glycoproteins such as glycophorin A. While these three structures share a common nonreducing tetrasaccharide terminus, mAb RM2 showed strong specific reactivity only with Structure 1, not with Structures 2 or 3. Another mAb, QSH2, reacted strongly with Structure 3 but did not cross-react with Structures 1 or 2. Conformational molecular models based on minimum energy hard sphere exoanomeric calculations suggest that Structure 1 presents a unique surface topology distinct from that of Structures 2 or 3. Our findings suggest the novel concept that reactivity of a common carbohydrate epitope with different antibodies or ligands is highly dependent on the type of carrier glycosylceramide or carrier O-linked peptide. [formula: see text]

Stage-specific glycosphingolipids from amastigote forms of Leishmania (L.) amazonensis. Immunogenicity and role in parasite binding and invasion of macrophages.

Neutral glycosphingolipids (GSLs) from amastigote forms of Leishmania (L.) amazonensis were isolated, and their structures and biological properties were characterized. Based on various immunochemical methods, these GSLs were shown to be expressed at certain stages of amastigote development. GSLs were extracted and purified from amastigotes of hamster foot lesions by established procedures. Three mouse monoclonal antibodies (MoAbs) specific for carbohydrate epitopes of these GSLs were established, and their inhibition of parasite binding and macrophage invasion was analyzed. MoAb ST-3 inhibited 80% of macrophage invasion by amastigotes and 60% of that by promastigotes. Since GSLs reacting with MoAb ST-3 were found in amastigotes but not in promastigotes, ST-3 reactivity with promastigotes presumably depends on an epitope present on an unidentified promastigote glycoconjugate. MoAbs ST-4 and ST-5 inhibited 60-80% of macrophage invasion by amastigotes but were not effective in preventing macrophage invasion by promastigotes. Fab fragments of ST-3 inhibited invasion of cultured mouse macrophages by amastigotes (80%) or promastigotes (60%). The GSL with the simplest structure recognized by these MoAbs was isolated and characterized (by negative ion fast atom bombardment-mass spectrometry, gas chromatography-mass spectrometry of the permethylated compound, degradation with exoglycosidases, and 1H NMR) as the novel globoseries structure Gal beta 1-->3Gal alpha 1-->4Gal beta 1-->4Glc beta 1-->Cer, which has beta 1-->3Gal in place of the beta 1-->3GalNAc of globoside. The ceramide contains a 16:0 fatty acid and d18:1 sphingosine as the long chain base. The MoAbs also reacted with a series of GSLs from amastigote forms of L. amazonensis, with longer carbohydrate chains, probably containing identical end groups Gal beta 1-->3Gal alpha 1-->R. Expression of surface GSLs may render amastigote forms more effective than promastigotes in binding and invading host macrophages, thus enhancing the infectious process.

Structural characterization of x2 glycosphingolipid, its extended form, and its sialosyl derivatives: accumulation associated with the rare blood group p phenotype.

It has been suggested that the x2 glycosphingolipid (GSL) could offer a structural basis for a P-like antigen activity found in blood group p individuals [Kannagi R., Fukuda, M.N., Hakomori, S. (1982) J. Biol. Chem. 257, 4438]. The structures of the x2 and sialosyl-x2 GSLs have been confirmed unequivocally as shown below by +FAB-MS, methylation analysis by GC-MS, and 1H-NMR. We have established a [formula: see text] monoclonal antibody (TH2) specific for the GalNAc beta 1----3Gal beta 1----4GlcNAc epitope, the terminal trisaccharide of x2 GSL. Application of MAb TH2 on TLC immunoblotting together with chemical analysis indicates the following points of interest: (i) the existence of extended type GSLs having the same x2 terminal structure; (ii) the chemical quantities of x2, sialosyl-x2, and extended x2 found in blood cells and in various tissues including carcinomas being nearly the same; (iii) considerably larger quantities of x2 and x2-derived structures found in blood samples of rare blood group p individuals. The accumulation of x2 and its derivatives in blood cells of p individuals is in contrast to the occurrence of these GSLs as extreme minor components in normal human red blood cells and tissues, and they may be responsible for the reported P-like activity in blood group p individuals [Naiki, M., & Marcus, D. M. (1977) J. Immunol. 119, 537].

Characterization of a series of novel fucose-containing glycosphingolipid immunogens from eggs of Schistosoma mansoni.

Lipid extracts of eggs, worms, and cercariae of the parasitic trematode Schistosoma mansoni have been shown to contain a large number of highly immunogenic glycolipids (Weiss, J. B., Magnani, J. L., and Strand, M. (1986) J. Immunol. 136, 4275-4282). Three fractions of schistosome egg glycolipids were selected on the basis of their reactivity with an anti-schistosome monoclonal antibody (128C3/3), which recognizes a developmentally regulated carbohydrate epitope present on both glycolipid and glycoprotein antigens from S. mansoni. These fractions were purified by silica gel chromatography and preparative high performance thin layer chromatography and characterized by monosaccharide, fatty acid, and linkage analysis with gas chromatography-mass spectrometry, as well as by positive and negative ion fast atom bombardment-mass spectrometry. The immunogens were shown to be glycosphingolipids having homologous structures based on a highly novel extension of glucosylceramide. Monosaccharide inhibition studies indicated that the epitope recognized by 128C3/3 residues in an outer region of the immunogens consisting of Fuc2GlcNAc (where Fuc is fucose) repeating units. The largest antigen characterized may have the following structure, based on the evidence presented in this paper. [sequence: see text] The evidence indicated the existence of a series of glycan structures created by deletions of one or more Fuc1----3 side chains from the above structure.

Extended type-1 chain glycosphingolipid antigens. Isolation and characterization of trifucosyl-Leb antigen (III4V4VI2Fuc3Lc6).

A Lewis-b-active glycosphingolipid containing a repetitive type-1 chain carbohydrate core was isolated from human colonic adenocarcinoma cell line Colo205. This glycosphingolipid was purified by HPLC and preparative high-performance thin-layer chromatography and its structure elucidated by positive-ion fast-atom-bombardment mass spectrometry with collision-induced disassociation, 1H-NMR spectroscopy and methylation analysis. The glycosphingolipid was found to be a trifucosylated derivative of this novel carbohydrate core, having the following structure: [formula; see text].

Differentiation of type 1 and type 2 chain linkages of native glycosphingolipids by positive-ion fast-atom bombardment mass spectrometry with collision-induced dissociation and linked scanning.

Two underivatized glycosphingolipids, Le(b) and Le(y), isomeric in carbohydrate structure (Fuc alpha 1-->2Gal beta 1--> 3[Fuc alpha 1-->4]GlcNAc beta 1-->3Gal beta 1-->4Glc beta 1-->1Cer and Fuc alpha 1-->2Gal beta 1-->4[Fuc alpha 1-->3]GlcNAc beta 1-->3Gal beta 1--> 4Glc beta 1-->1Cer, respectively), were analyzed by positive-ion fast-atom bombardment (FAB) mass spectrometry with high energy collision-induced dissociation (CID) and linked scanning. The two isomers were distinguishable by the abundance of product ions derived from the non-reducing terminal tetrasaccharide fragment via sequential beta-eliminations of vicinally linked saccharide residues. Following earlier studies from other laboratories, which have dealt primarily with positive-ion FAB-CID mass spectrometry of simple model oligosaccharides, these results exemplify the practical application of two-sector methodology to underivatized complex glycoconjugates commonly encountered in the biomedical field.

Extended type 1 chain glycosphingolipids: dimeric Lea (III4V4Fuc2Lc6) as human tumor-associated antigen.

Glycolipid extracts from various human cancer tissues and cell lines showed the presence of a slow-migrating glycolipid component which was strongly reactive with monoclonal antibody (mAb) NCC-ST-421 (raised against human gastric adenocarcinoma) and weakly cross-reactive with anti-Lea mAbs. The slow-migrating glycolipid was isolated from human colonic adenocarcinoma cell line Colo205 grown in nude mice, and was purified by high-performance liquid chromatography followed by preparative thin-layer chromatography. Its structure was elucidated by sequential enzymatic degradation and thin-layer chromatography immunostaining of the degradation products with various mAbs, 1H NMR spectroscopy, positive-ion fast atom bombardment mass spectrometry, and methylation analysis. The major slow-migrating component reacting with mAb ST-421 was identified as dimeric Lea, with the structure as follows. [formula: see text] Antigens containing this structure and various analogous structures (including enzymatically synthesized Lea/Lex hybrid antigen) were tested with ST-421. While the mAb was equally reactive with dimeric Lea and Lea/Lex, only the former was chemically detectable as the slow-migrating glycolipid from the tumor extract. ST-421 showed less reactivity with simple Lea (III4FucLc4) or extended Lea (V4FucLc6, and/or IV3Gal beta 1----3[Fuc alpha 1----4]GlcNAcnLc4), and was not reactive with Lex/Lex (dimeric Lex). It was concluded, therefore, that the major tumor-associated slow-migrating glycolipid reacting with ST-421 has the dimeric Lea structure shown above. Since extension of lacto-series structure has been shown to be limited to type 2 chain in normal cells and tissues, extended elongation of type 1 chain as shown in this structure represents a novel tumor-associated epitope.

Strategies for characterization of ganglioside inner esters. I--Fast atom bombardment mass spectrometry.

A comparison of old and new fast atom bombardment (FAB) mass spectrometric strategies for characterization of ganglioside inner esters (lactones) is presented. Data obtained for lactones of GD3 (NeuAc alpha 2----8NeuAc alpha 2----3Gal beta 1----4Glc beta 1----1Cer) using negative ion FAB mass spectrometry of underivatized materials, negative ion FAB mass spectrometry following ammonolysis, and positive ion FAB mass spectrometry following ammonolysis and permethylation are presented and discussed. The latter method uses well-known reactions to produce a novel type of ganglioside derivative, highly amenable to analysis by positive ion FAB mass spectrometry, which is introduced to simplify unambiguous location of NeuAc residues involved in ester linkages to other sugars.

Novel tri-and tetrasialosylpoly-N-acetyllactosaminyl gangliosides of human placenta: structure determination of pentadeca- and eicosaglycosylceramides by methylation analysis, fast atom bombardment mass spectrometry, and 1H NMR spectroscopy.

A series of highly polar neolacto series (poly-N-acetyllactosaminyl) gangliosides were isolated from human placenta tissue and purified by HPLC and preparative HPTLC. Two of these ganglioside fractions (G-12 and G-13) were analyzed by 500-MHz 1H NMR spectroscopy, GC-EIMS, +FAB-MS, and sequential exoglycosidase treatments. Their structures have been identified as being of the repeating N-acetyllactosamine type, multiply branched through GlcNAc beta 1----6/3 linkages, with every nonreducing Gal terminal alpha 2----3-sialosylated, as shown below. These are among the highest molecular weight glycosphingolipids whose detailed oligosaccharide structures are presently known. (formula; see text).

A novel strategy for unambiguous determination of inner esterification sites of ganglioside lactones.

A method is described which is suitable for protection of all free hydroxyl groups of a glycosphingolipid under conditions which will not cleave ester linkages, including inner ester linkages characteristic of ganglioside lactones. The protecting methoxyethoxymethyl group is stable in alkaline media, surviving permethylation procedures which introduce a methyl ether at all sites previously acylated. Hydrolysis, reduction, and acetylation then yield alditol acetate derivatives which can be analyzed by conventional GC-MS to locate the methyl ether groups. The method is used to locate the inner esterification site of GM3 lactone.