Fast atom bombardment mass spectrometry of glycosphingolipids. Glycosphingolipids containing neutral sugars

Natural and synthetic glycosphingolipids containing neutral sugars have been analyzed by positive and negative ion fast atom bombardment mass spectrometry. Basic structural characterization including saccharide size and sequence and ceramide composition is possible on the basis of the fragment ions observed. The degree of fragmentation could be increased by using higher sample concentrations and lower fast atom beam energies. Commercially available synthetic compounds that had been presumed to be pure were shown to contain homologous fatty acids. Mixtures of glycosphingolipids such as those obtained from Gaucher's spleen and from human erythrocytes can be characterized and quantitated.     

Oligosaccharide sequence determination using B/E linked field scanning or tandem mass spectrometry of phosphatidylethanolamine derivatives

Product ion mass spectral data of [M + H]+ ions of oligosaccharides, mainly tetra- and pentasaccharides, as their dipalmitoyl phosphatidylethanolamine derivatives were obtained using both liquid secondary ion mass spectrometry with B/E linked scanning and fast atom bombardment ionization with collision-induced dissociation/tandem mass spectrometry. Both methods give similar positive product ion spectra of equivalent high sensitivity (detection limits of approximately 50 pmol) that principally contain glycosidic cleavage ions retaining the reducing end of the molecule from which monosaccharide sequence can be deduced. A series of ions from fission of the phosphate ester bond together with glycosidic cleavage are present in the tandem mass spectra and B/E linked scan spectra when helium collision gas is used. Monosaccharide linkage position of isomeric molecules is reflected in the intensity of glycosidic fragmentation, without retention of the oxygen atom, with decreasing cleavage in the order 1-3 greater than 1-4 greater than 1-6 linkage. Fucose and N-acetylhexosamines show an increased degree of fragmentation over hexose sugars. The application of product ion spectra of derivatized oligosaccharides is demonstrated for characterizing mixed samples and also the acquisition of spectra directly from the silica surface of high-performance thin-layer chromatography plates.     

Structure elucidation of glycosphingolipids and gangliosides using high-performance tandem mass spectrometry

Glycosphingolipids and gangliosides have been investigated by using fast atom bombardment high-performance tandem mass spectrometry (FABMS/MS). Homologous compounds have been investigated in order to ascertain the fragmentation. Collision-induced dissociation spectra of the molecular species in the positive ion mode mainly afford information on the ceramide constitution (aglycon as a whole, N-acyl residue, and long-chain base), whereas negative ion spectra show fragments informative of the sugar sequence and the degree of branching of the carbohydrate. In the case of gangliosides carrying a complex oligosaccharide moiety, collision spectra of fragment ions have been performed in order to gain additional structural data. The advantage of tandem mass spectrometry over conventional fast atom bombardment mass spectrometry (FABMS) consists in the fact that collision spectra of the individual components from mixtures, as usually encountered with these kinds of samples, can be recorded. Furthermore, the exclusion of most of the interfering signals from the matrix allows the identification of pertinent fragments at low mass.     

Fast atom bombardment-mass spectrometry of glycosphingolipids extracted from thin-layer chromatography plates

A method is described for analysis of glycosphingolipids extracted from thin-layer chromatography plates. Mixtures of glycolipids and gangliosides were separated by thin-layer chromatography and the individual bands were eluted, permethylated, and, after purification, analyzed by fast atom bombardment-mass spectrometry. The glycosphingolipids could be characterized from their fast atom bombardment mass spectra in terms of partial monosaccharide sequence, ceramide composition, and molecular weight. The sensitivity of the method allows characterization of 1-5 micrograms of glycosphingolipid.     

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.     

Fast atom bombardment tandem mass spectrometric analysis of N-carbamoylamino acids.

Using fast atom bombardment (FAB) and tandem mass spectrometry (MS/MS), we examined 12 synthetic N-carbamoylamino acids (CAA) as tert-butyldimethylsilyl (TBDMS) derivatives. In FAB mass spectrometry and FAB MS/MS, spectra of protonated molecules for CAA provide specific cleavages involving the TBDMS carbamoyl moiety. The daughter scan spectrum of the parent ion indicated that it was useful for structural elucidation and differentiation of structural isomers of CAA. We have also identified each CAA separately in a mixture using a neutral loss scan for characteristic ions. In addition, we demonstrated that CAA in urine samples from patients with ornithine carbamoyl transferase deficiency gave collision-induced dissociation (CID) spectra which correspond well with CID spectra obtained using synthetically prepared CAA.     

A micro method involving micro high-performance liquid chromatography-mass spectrometry for the structural characterization of neutral glycosphingolipids and monosialogangliosides

A micro method involving high-performance liquid chromatography-fast atom bombardment mass spectrometry (HPLC/FAB/MS) has been developed for the sensitive structural characterization of neutral glycosphingolipids and monosialogangliosides. The method involves a micro silica gel column (0.3 mm i.d. x 100 mm) and a micro HPLC apparatus working at a flow rate of 6 microliters/min. All injected materials can be structurally characterized by mass spectrometry without the splitting or wasting of materials, which was not possible with our previous method [M. Suzuki et al. (1990) J. Biochem. 108, 92-98]. A mixture containing 160 ng each of five neutral glycosphingolipids (GlcCer, LacCer, Gb3Cer, Gb4Cer, and IV3 alpha GalNAc-Gb4Cer) and a mixture containing 160 ng each of three monosialogangliosides [GM3(NeuAc), GM2(NeuAc), and GM1(NeuAc)] were injected into the micro HPLC with programmed elution with isopropanol-n-hexane-water with or without ammonium hydroxide. Each glycosphingolipid was separated by mass chromatography and the obtained mass spectra were suitable for structural characterization. Thus, the characterization of glycosphingolipids was achieved with small amounts of materials, 160 ng each, and in mixtures.     

Helicobacter pylori-binding gangliosides of human gastric adenocarcinoma.

Acidic and neutral glycosphingolipids were isolated from a human gastric adenocarcinoma, and binding of Helicobacter pylori to the isolated glycosphingolipids was assessed using the chromatogram binding assay. The isolated glycosphingolipids were characterized using fast atom bombardment mass spectrometry and by binding of antibodies and lectins. The predominating neutral glycosphingolipids were found to migrate in the di- to tetraglycosylceramide regions as revealed by anisaldehyde staining and detection with lectins. No binding of H. pylori to these compounds was obtained. The most abundant acidic glycosphingolipids, migrating as the GM3 ganglioside and sialyl-neolactotetraosylceramide, were not recognized by the bacteria. Instead, H. pylori selectively interacted with slow-migrating, low abundant gangliosides not detected by anisaldehyde staining. Binding-active gangliosides were isolated and characterized by mass spectrometry, proton nuclear magnetic resonance, and lectin binding as sialyl-neolactohexaosylceramide (NeuAcalpha3Galbeta4GlcNAcbeta3Galbeta4GlcNAcbeta3Galbeta4Glcbeta1Cer) and sialyl-neolactooctaosylceramide (NeuAcalpha3Galbeta4GlcNAcbeta3Galbeta4GlcNAcbeta3Galbeta4GlcNAcbeta3Galbeta4Glcbeta1Cer).     

Synthesis and spectroscopic analysis of modified bile salts

For the study of hepatic bile acid transport in vivo, a series of modified bile salts were synthesized. The N-cholyl derivatives of L-leucine, L-alanine, D-alanine, beta-alanine, L-proline, and gamma-amino-butyric acid were prepared from cholic acid, ethyl chloroformate and the corresponding amino acid. Structural analysis of products was carried out mainly by electron impact mass spectrometry (20 eV) of the methyl ester/acetate derivatives. In all EI spectra, fragments in the lower mass region included McLafferty rearrangement ions (beta-cleavage) and product ions of gamma-cleavage in the vicinity of the amide linkage. In the upper mass region, fragmentation was characterized by consecutive eliminations of ketene and/or acetic acid from low intensity molecular ions. The purity of the products and their molecular weights were checked by a novel ionization technique in mass spectrometry, fast atom bombardment (FAB) mass spectrometry. FAB spectra were obtained from underivatized bile salts. The spectra were characterized by ions formed by attachment of a proton or an alkali ion to the bile salt to give intense M+H, M+Na, or M+K ions, which then showed little fragmentation.     

Studies on glycosphingolipids in larvae of the green-bottle fly, Lucilia caesar: two neutral glycosphingolipids having large straight oligosaccharide chains with eight and nine sugars

Two neutral glycosphingolipids having large straight oligosaccharide chains with eight and nine sugars, provisionally named COS and CNS, were isolated and purified from larvae of the green-bottle fly, Lucilia caesar, as the only two remaining unidentified significant neutral glycolipids in this organism. From the results of sugar analysis, permethylation, negative-ion fast atom bombardment mass spectroscopy (FAB-MS), and 1H-NMR studies, the structures of the two glycolipids are proposed to be: COS, GalNAc beta 1-3GlcNAc beta 1-3Gal beta 1-3GalNAc alpha 1-4GalNAc beta 1-4GlcNAc beta 1-3Man beta 1-4Glc beta 1-Cer; and CNS, Gal beta 1-3GalNAc beta 1-3GlcNAc beta 1-3Gal beta 1-3GalNAc alpha 1-4GalNAc beta 1-4GlcNAc beta 1-3Man beta 1-4Glc beta 1-Cer. The fatty acid and long-chain base compositions of the above glycolipids were very similar, and were dominated by arachidic acid, and tetradeca- and hexadeca-4-sphingenines. The great similarity between the compositions of their ceramide moieties suggests that COS may be a precursor in the glycosylation reaction yielding CNS.     

Characterization and direct quantitation of ceramide molecular species from lipid extracts of biological samples by electrospray ionization tandem mass spectrometry

A rapid, simple, and reliable method has been developed for the characterization and quantitation of ceramide molecular species directly from chloroform extracts of biological samples by electrospray ionization tandem mass spectrometry (ESI/MS/MS). By exploiting the differential fragmentation patterns of deprotonated ceramide ions, individual 2-hydroxy and nonhydroxy ceramide molecular species were readily identified by ESI/MS/MS with the neutral loss of fragments of mass 256.2 and 327.3 which correspond to sphingosine derivatives. The ions generated from the neutral loss of 256.2 (i.e., [M - H - 256.2](-)) are unique for ceramides with N-acyl sphingosine with the 18-carbon homolog. However, the sensitivity for nonhydroxy ceramides in ESI/MS/MS with the neutral loss of 256.2 is approximately threefold higher than that for 2-hydroxy ceramides. The ions resulting from the neutral loss of 327.3 (i.e., [M - H - 327.3](-)) are specific for 2-hydroxy ceramides. Additionally, all ceramides including both 2-hydroxy and nonhydroxy forms can be confirmed and accurately quantitated by ESI/MS/MS with the neutral loss of 240.2 after correction for (13)C isotope factors. This methodology demonstrated a 1000-fold linear dynamic range and a detection limit at the subfemtomole range and was applied to directly quantitate ceramide molecular species in chloroform extracts of biological samples including brain tissues and cell cultures.     

Comparison of 252californium plasma desorption and fast atom bombardment mass spectrometry for analysis of small peptides

The data obtained with 252Cf plasma desorption (PD) and fast atom bombardment mass spectrometry of eight tri-, tetra- and pentapeptides were compared. Good spectra were obtained with 1-10 nmol of peptide. In both techniques molecular weight information was obtained. The PD mass spectra are often dominated by the cationized molecular ions in contrast to the fast atom bombardment (FAB) mass spectra, where cationization is rarely observed. Amino acid content is reflected in the immonium ions equally well in both techniques. The fragmentation patterns observed with the two techniques are almost identical. However, practical sequencing of peptides based on either FAB or PD mass spectrometry of underivatized peptides alone is difficult. This is due to the unpredictable and sometimes absent cleavage yield at certain peptide bonds. Another difficulty is the many simultaneous fragmentation pathways. However, for many peptides enough information is present to allow sequence determination for at least a major part of the molecule.     

The use of gas chromatography and gas chromatography-mass spectrometry for the characterization of permethylated oligosaccharides with molecular mass up to 2300

Gas chromatography and gas chromatography-mass spectrometry were adapted for the analysis of large permethylated oligosaccharides of different types. Permethylated isomaltooligosaccharides with up to 11 sugar residues and a mass of 2291 Da and two branched blood group H-type decasaccharides derived from the corresponding glycosphingolipids with masses of 2150 Da were successfully analyzed. The capillary columns used have extremely good resolution exemplified by the separation of the two decasaccharides which only differed by one internal linkage position and by the separation of four isomeric tetrasaccharides. The combined information of retention times and mass spectra gave detailed information of 22 neutral oligosaccharides from porcine intestinal mucin and the approach thus allow quick screening of O-linked-type glycans. The procedure for permethylation of oligosaccharides using solid NaOH has been investigated and adapted for structures having a glucose alditol as in reduced oligosaccharides derived from milk and glycosphingolipids.     

Diffusion-controlled reaction kinetics of the binding of carbon monoxide to the heme undecapeptide of cytochrome c (microperoxidase 11) in high viscosity solvents

Glycosphingolipids from human plasma with Le^a, Le^b, and H-type 1 (Le^dH) Lewis-blood-group activity have been analyzed after permethylation by electron impact mass spectrometry using an indirectly heated direct insertion probe. The spectra obtained are compared with that of permethylated neo-lactotetraosyl ceramide (Gl-3) from human plasma. The fragmentation patterns presented show clearly, that Le^a and H-type 1 glycosphingolipids are ceramide pentasaccharides while Le^b is a ceramide hexasaccharide. All Lewis-blood-group-active compounds investigated produced ions specific for type 1 carbohydrate chains. It is therefore concluded, that all compounds are derivatives of lacto-N-tetraose. The obtained spectra support the following sequences: Hexose-1→3-hexosamine[4←1-deoxyhexose]-hexose-hexose ceramide for the Le^a derivatives; deoxyhexose-hexose-1→3-hexosamine4←1-deoxyhexose]-hexose-hexose ceramide for the Le^b derivatives; and deoxyhexose-hexose-1→3-hexosamine-hexose-hexose ceramide for all H-type 1 (Le^dH) derivatives. In the case of the H-type 1 glycosphingolipids four subfractions were analyzed separately. While all four fractions contained the same carbohydrate sequence, significant differences were observed in the ceramide residues. Specific fragmentation patterns indicate the presence of sphingosine, icosasphingosine, and 4-hydroxysphinganine besides normal, unsaturated, and hydroxylated fatty acids in all Lewis-blood-group-active glycolipids.     

Application of fast atom bombardment mass spectrometry to chlorogenic acids

The technique of positive- and negative-ion fast atom bombardment mass spectrometry has been shown to be capable of producing molecular mass and useful fragmentation information for the structural elucidation of chlorogenic acids. The mass spectra of chlorogenic acid and the related compounds 3′-O-methylchlorogenic acid, neochlorogenic acid, 4,5-dicaffeoyl quinic acid and 1,5-dicaffeoyl quinic acid are compared with those obtained by electron impact mass spectrometry.     

Structural studies of gangliosides by fast atom bombardment ionization, low-energy collision-activated dissociation, and tandem mass spectrometry

Negative ion fast atom bombardment, low-energy collision-activated dissociation, and tandem mass spectrometry techniques were applied for the structural elucidation of gangliosides. The mass spectra were simplified by selecting a single molecular ion or fragment ion in the analysis of mixtures, and interference by background signals from the liquid matrix could be avoided. Introduction of collision-activated dissociation produced abundant fragment ions convenient for structural analysis. In the daughter scan mode, ions were produced by cleavage of the glycosidic bonds, and not by cleavage at the sugar ring. These ions all contain ceramide moieties, except the sialic acid fragment ion. In the parent scan mode, product ions resulting from cleavage at the sugar ring were detected beside the ions resulting from cleavage at the glycosidic bonds, and ions of oligosaccharide fragments were also detected. In parent scan mode spectra of gangliosides based on the sialic acid ion, all ions contained a sialic acid residue, and the observed ions were similar to those obtained in the high-energy collision-activated dissociation daughter scan mode. These results indicate the usefulness of low-energy collision-activated dissociation tandem mass spectrometry in the daughter and parent scan modes for the analysis of ganglioside structure, in combination with fast atom bombardment mass spectrometry and high-energy collision-activated dissociation mass spectrometry.     

Rapid characterization of mucin oligosaccharides from rat small intestine with gas chromatography-mass spectrometry

Mucin glycopeptides were isolated from rat small intestinal mucosa after reduction/alkylation, trypsin digestion and gel chromatography. The oligosaccharides were released by using alkaline-NaBH4, separated into neutral and acidic species and permethylated. The derivatized mixtures were analysed with fast atom bombardment mass spectrometry and gas chromatography-mass spectrometry using thin film columns. Permethylated neutral oligosaccharides with up to seven sugars could be chromatographed and detected with mass spectrometry. The complex mixture revealed was partly due to the linkage GalNAc being substituted at both position 3 and 6. The approach will be very useful when analysing small amounts of mucins and mucin fragments.     

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

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

Nonenzymatic release of free reducing glycans from glycosphingolipids

A major limitation in studying the structures and functions of glycans in glycosphingolipids is the difficulty in releasing free glycans for analysis and derivatization. Here we show that reducing glycans can be released nonenzymatically from glycosphingolipids after a brief treatment with ozone followed by heating in neutral aqueous buffer (pHs 6.0-8.0). The released free reducing glycans are then available for glycomic analyses, including fluorescent labeling, permethylation, and mass spectrometry. This procedure is simple and highly efficient, with no base-catalyzed "peeling" reaction by-products observed.     

Isolation and identification of alpha-methyloctanylcarnitines from human urine

Medium-chain acylcarnitines were isolated from human urine using a combination of chloroform-methanol extraction, silicic acid column and molecular sieving chromatography and preparative HPLC. Three purified acylcarnitines were analyzed by fast atom bombardment mass spectrometry and were also saponified and the free fatty acids analyzed by gas chromatography and mass spectrometry. Combined electron impact mass spectrometry and fast atom bombardment mass spectrometry and periodate oxidation for location of double bonds, demonstrated the occurrence of delta 6-octenylcarnitine, 2-methyloctanylcarnitine and 2-methyl-delta 6-octenylcarnitine. These acylcarnitines were present in the thirteen urines obtained from normal humans, but were not detected in urines from three individuals who had been on total parenteral nutrition for more than a year. The occurrence of alpha-methyl medium-chain acylcarnitines in human urine indicates a role for carnitine in excretion (detoxification) of these acyl derivatives.