Substrate specificities of a bacterial sialidase and rat liver ganglioside GM3 sialyltransferase

Sialidases cleave off sialic acid residues from the oligosaccharide chain of gangliosides in their catabolic pathway while sialyltransferases transfer sialic acid to the growing oligosaccharide moiety in ganglioside biosynthesis. Ganglioside G_M3 is a common substrate for both types of enzymes, for sialidase acting on ganglioside G_M3 as well as for ganglioside G_D3 synthase. Therefore, it is possible that both enzymes recognize similar structural features of the sialic acid moiety of their common substrate, ganglioside G_M3. Based on this idea we used a variety of G_M3 derivatives as glycolipid substrates for a bacterial sialidase (Clostridium perfringens) and for G_D3 synthase (of rat liver Golgi vesicles). This study revealed that those G_M3 derivatives that were poorly degraded by sialidase also were hardly recognized by sialyltransferase (G_D3 synthase). This may indicate similarities in the substrate binding sites of these enzymes.     

Metabolism of GM1 ganglioside in cultured skin fibroblasts: anomalies in gangliosidoses,sialidoses, and sphingolipid activator protein (SAP,saposin) 1 and prosaposin deficient disorders

Summary Cultured skin fibroblasts from controls and patients with lysosomal storage diseases were loaded with G_M1 ganglioside that had been labelled with tritium in its ceramide moiety. After a 65-h or 240-h incubation, a large percentage of this ganglioside remained undegraded in G_M1 gangliosidoses, whereas in the other storage diseases studied, one of its metabolites accumulated by 2–4 fold relative to controls. Labelled G_M2 ganglioside accumulated in 4 variants of G_M2 gangliosidosis, whereas labelled G_M3 ganglioside accumulated in sialidosis, galactosialidoses and sphingolipid activator protein 1 (SAP-1, saposin B) and prosaposin (saposin A, B, C an D) deficient lipidoses. The reduced degradation of G_M3 ganglioside in the SAP-1 and prosaposin deficiencies was attributed to the deficient function of SAP-1. The prosaposin deficient cells also showed a reduced re-utilization of radioactive metabolites from G_M1 ganglioside (i.e. sphingosine and fatty acid) for phospholipid biosynthesis compared with fibroblasts from the SAP-1 deficient patient or normal controls. This anomaly was ascribed to the previously shown defect in ceramide degradation in prosaposin deficiency.     

Effects of cyclodextrins on the hydrolysis of ganglioside GM1 by acid β-galactosidases

The hydrolysis of ganglioside G_M1 by acid -galactosidases was greatly enhanced by the inclusion of heptakis(2,6-di-O-methyl)--cyclodextrin or -cyclodextrin in the assay mixture. The other cyclodextrins tested were not effective. The extent of stimulation by these cyclodextrins was relatively smaller than those by taurodeoxycholate and taurochenodeoxycholate. However, it is suggested that stimulation by bile salts may be partly a reflection of the detergent effects of bile salts on G_M1 and partly a reflection of the interaction between bile salts and the enzyme itself. On the other hand, the stimulation by the cyclodextrins seems to correlate to the formation of an inclusion complex between G_M1 and cyclodextrin without enzyme protein interaction.     

Characterization of the binding epitope of the monoclonal antibody DMAb-1 to ganglioside GM2.

Several derivatives of ganglioside GM2 were synthesized for mapping of the binding epitope of a monoclonal antibody raised against this ganglioside. The GM2 ganglioside was modified in both the hydrophobic and the hydrophobilic part of the molecule. The synthesized derivatives were characterized with fast atom bombardment mass spectrometry (FAB-MS). Affinity of the monoclonal antibody for the GM2 derivatives was determined by enzyme-linked immunosorbent assay (ELISA) on microtitre plates or by TLC immunostaining. Modifying the GM2 sialic acid by deacetylation or blocking of the carboxyl moiety abolished the binding to the monoclonal antibody while the cleaving of the glycol group on the sialic acid tail led to a 70% reduced binding affinity. Removal of the fatty acid (lyso-GM2) eliminated the binding to the antibody. GM2 derivatives with fatty acid moieties of 8 carbon atoms or less showed almost no reactivity. GM2 with saturated fatty acids 16:0, 18:0 and 20:0 had binding affinity similar to natural GM2, while the 24:0 fatty acid had only half the binding affinity. The results demonstrate the importance of ganglioside fatty acid composition with regard to ligand binding between the monoclonal antibody and its specific ganglioside antigen. Thus, caution must be shown in the application of immunaffinity methods with monoclonal antibodies for the quantitative determination of glycosphingolipids from different tissues.     

The ganglioside GD1α, IV3Neu5Ac,III6Neu5Ac-GgOse4Cer,is a major disialoganglioside in the highly metastatic murine lymphoreticular tumour cell line MDAY-D2

The aim of the present study was to investigate the ganglioside expression of the highly metastatic murine lymphoreticular tumour cell line MDAY-D2. Cells were propagated under controlled pH conditions and oxygen supply in bioreactors of 1 and 7.5l volumes by repeated batch fermentation. Gangliosides were isolated from 2.7×10¹¹ cells, purified by silica gel chromatography and separated into mono- and disialoganglioside fractions by preparative DEAE anion exchange high performance liquid chromatography. Individual gangliosides were obtained by preparative thin layer chromatography. Their structural features were established by immunostaining, fast atom bombardment and gas chromatography mass spectrometry. In addition to gangliosides of the G_M1a-pathway (G_M2, G_M1a and G_D1a) and G_M1b (IV³Neu5Ac-GgOse₄Cer) and GalNAc-G_M1b of the G_M1b-pathway, the dis8aloganglioside G_D1 (IV³Neu5Ac, III⁶Neu5Ac-GgOse₄Cer) was found in equal amounts compared to G_D1a (IV³Neu5Ac, II³Neu5Ac-GgOse₄Cer). All gangliosides were substituted with C_24:0,24:1 and C_16:0 fatty acids, sphingosine andN-acetylneuraminic acid as the sole sialic acid. Abbreviations: FAB-MS, fast atom bombardment-mass spectrometry; GC-MS, gas chromatography-mass spectrometry; GSL(s), glycosphingolipid(s); HPLC, high performance liquid chromatography; HPTLC, high performance thin layer chromatography; Neu5Ac,N-acetylneuraminic acid; Neu5Gc,N-glycoloylneuraminic acid [57]. The designation of the following glycosphingolipids follows the IUPAC-IUB recommendations [58] and the nomenclature of Svennerholm [59]. Gangliotriaosylceramide or GgOse₃Cer, GalNAc1-4Gal1-4Glc1-1Cer; gangliotetraosylceramide or GgOse₄Cer, Gal1-3GalNAc1-4Gal1-4Glc1-1Cer gangliopentaosylceramide or GgOse₅Cer, GalNAc1-4Gal1-3GalNAc1-4Gal1-4Glc1-1Cer; G_M2, II³Neu5Ac-GgOse₃Cer; G_M1a, II³Neu5Ac-GgOse₄Cer; G_M1b, IV³Neu5Ac-GgOse₄Cer; GalNAc-G_M1b, IV³Neu5Ac-GgOse₅Cer; G_D1a, IV³Neu5Ac, II³Neu5Ac-GgOse₄Cer; G_D1b, II³(Neu5Ac)₂-GgOse₄Cer; G_D1 or G_D1e, IV³Neu5Ac, III⁶Neu5AcGgOse₄Cer; G_D1e, IV³(Neu5Ac)₂-GgOse₄Cer; G_T1b, IV³Neu5Ac, II³(Neu5Ac)₂-GgOse₄Cer.     

Antigenicity of the carbohydrate moiety of ganglioside GM3 having 3-O-acetyl ceramide

To elucidate the effect of a modification of ceramide on antigenicity of the carbohydrate of ganglioside, the reactivity of O-acetyl GM3 having 3-O-acetyl ceramide, which has been characterized as a gliomarelated ganglioside, with monoclonal antibody M2590 was examined in comparison to that of non-acetylated GM3, by means of quantitative enzyme-linked immunosorbent assay, TLC-immunostaining and liposome immune lysis assay. In all these assay systems, O-acetyl GM3 showed less activity than GM3 as follows: GM3 was detected till 0.1 nmol in TLC-immunostaining, whereas O-acetyl GM3 could not be detected even at 0.25 nmol; the GM3 reaction was approximately twofold that of O-acetyl GM3 at each diluted point in the enzyme-linked immunosorbent assay; and 20% of the liposomes containing GM3 were lysed at 6 mol%, while liposomes containing O-acetyl GM3 did not lyse at that concentration. The lesser antigenicity of the sugar moiety of O-acetyl GM3 could be ascribed to the presence of an acetyl group in the ceramide at the 3-position of sphingosine.     

Carbohydrate structure and differential binding of prostate specific antigen to Maackia amurensis lectin between prostate cancer and benign prostate hypertrophy

Serum prostate-specific antigen (PSA) assay is widely used for detection of prostate cancer. Because PSA is also synthesized from normal prostate, false positive diagnosis cannot be avoided by the conventional serum PSA test. To apply the cancer-associated carbohydrate alteration to the improvement of PSA assay, we first elucidated the structures of PSA purified from human seminal fluid. The predominant core structure of N-glycans of seminal fluid PSA was a complex type biantennary oligosaccharide and was consistent with the structure reported previously. However, we found the sialic acid alpha2-3 galactose linkage as an additional terminal carbohydrate structure on seminal fluid PSA. We then analyzed the carbohydrate moiety of serum PSA from the patients with prostate cancer and benign prostate hypertrophy using lectin affinity chromatography. Lectin binding was assessed by lectin affinity column chromatography followed by determining the amount of total and free PSA. Concanavalin A, Lens culinaris, Aleuria aurantia, Sambucus nigra, and Maackia amurensis lectins were tested for their binding to the carbohydrates on PSA. Among the lectins examined, the M. amurensis agglutinin-bound fraction of free serum PSA is increased in prostate cancer patients compared to benign prostate hypertrophy patients. The binding of PSA to M. amurensis agglutinin, which recognizes alpha2,3-linked sialic acid, was also confirmed by surface plasmon resonance analysis. These results suggest that the differential binding of free serum PSA to M. amurensis agglutinin lectin between prostate cancer and benign prostate hypertrophy could be a potential measure for diagnosis of prostate cancer.     

Fucosyl-GM1 — A ganglioside associated with small cell lung carcinomas

Characterization of monosialogangliosides of a small cell lung carcinoma showed a unique composition. The tumour contained G_M2 and Fucosyl-G_M1 (Fuc-G_M1) with 2-hydroxy fatty acids as major ganglioside components. Three out of four other small cell carcinomas analysed contained also Fuc-G_M1 as a characteristic ganglioside. Fuc-G_M1 is suggested to be a small-cell lung carcinoma associated ganglioside antigen.Nomenclature: The gangliosides have been designated according to Svennerholm [25] G_M3 II³NeuAc-Lac-Cer - G_D3 II³(NeuAc)₂-LacCer - G_M2 II³NeuAc-GgOse₃Cer - G_M1 II³NeuAc-GgOse₄Cer - Fuc-G_M1 FuclV²Neu-AcII³-GgOse₄Cer - 3-L_M1 IV³NeuAc-nLcOse₄Cer - 6-L_M1 IV⁶NeuAc-nLcOse₄Cer     

Significant inhibition of hybridoma cells by exogenous application of ganglioside G M3, a possible modulator of cell growthin vitro

Gangliosides of the mouse-rat hybridoma cell line 187.1, which secretes an antibody against -light chain of mouse IgG, were isolated and structurally characterized by biochemical and immunological methods (overlay technique), and fast atom bombardment-mass spectrometry. Exclusively G _M3, substituted with C₂₄₁ and C₁₆₀ fatty acid and C₁₈₁ sphingosine, was found in this B cell derived cell line. A G _M3 (NeuGc) to G _M3(NeuAc) ratio (80 to 20), was characteristic for 187.1 cells, and absolute G _M3 amounts of about 0.3 mg 10^–9 viable cells were determined. Exogenous application of G _M3, which has been isolated from large cell preparations, to 187.1 cells showed growth inhibition in a concentration dependent manner. Using the MTT-assay and the [³H]thymidine incorporation assay, the cells exhibited a strong reduction in metabolic and proliferative activity, respectively, after exposure of cells to G _M3. G _M3 was applied in concentrations between 3M and 30M, giving evidence for strong inhibitory effects at 30M G _M3 and less but significant suppression after application of G _M3 concentrations lower than 20M. No cellular response was observed at the lowest concentration (3M) used in this study. Hybridoma cells as well as other cell types like fibroblasts, muscle cells and endothelial cells, are in general characterized by high expression of the G _M3 ganglioside, which is known to act as a modulator of cellular growth in monolayer cultures of adherent cells. Since gangliosides are released to the culture medium by cell lysis, i.e. cell death, and/or by active membrane shedding, the results obtained in this study suggest a growth regulatory role of G _M3 in high density hybridoma cell cultures.Abbreviations DMB 1,2-diamino-4,5-methylenedioxybenzene - FAB-MS fast atom bombardment-mass spectrometry - GSL(s) glycosphingolipid(s) - HPLC high performance liquid chromatography - HPTLC high performance thin layer chromatography - MTT 3,(4,5 dimethylthiazol-2-yl)2,5 diphenyl tetrazolium bromide - NeuAc N-acetylneuraminic acid - NeuGc N-glycolylneuraminic acid - PBS phosphate buffered saline The designation of the following glycosphingolipids follows the IUPAC-IUB recommendations (1977) and the nomenclature of Svennerholm (1963). Lactosylceramide or LacCer, Galß1–4Glcß1-1Cer; gangliotriaosylceramide or GgOse₃Cer; GalNAcß1–4Galß1–4Glcß1-1 Cer; gangliotetraosylceramide or GgOse₄Cer, Galß1–3GalNAcß1–4Galß1–4Glcß1-1Cer; G _M3(NeuAc), II³NeuAc-LacCer; G _M3(NeuGc), II³NeuGc-LacCer; G _M2(NeuGc), II³NeuGc-GgOse₃Cer; G _M1 or G _M1a, II³NeuAc-GgOse₄Cer; G _M1b, IV³NeuAc-GgOse₄Cer.     

Interaction of gangliosides with plasma low density lipoproteins

The role of gangliosides in the reception of low density lipoproteins (LDL) was studied using as targets mouse ascites hepatoma 22a (MAH) cells which bind LDL through a specific high affinity receptor. Low density lipoprotein binding and uptake by MAH cells decreased after brief treatment of the cells with neuraminidase to partially remove surface sialic acid residues. The LDL uptake capability of the neuraminidasetreated MAH cells was fully restored after incorporation of exogeneous G_M1- and G_D1a-gangliosides into the cell surface. In contrast, free (extracellular) gangliosides inhibited LDL uptake by native MAH cells. This inhibitory effect was seen at ganglioside concentrations corresponding to the ganglioside content of serum and was most pronounced with gangliosides whose sialic acids were linked to a terminal galactose residue (G_M3, G_D1a, G_T1b) but was smaller or absent with gangliosides whose sialic acids were attached to an internal galactose (G_M1, G_M2). The binding of gangliosides to LDL was structure and concentration dependent, saturable and trypsin sensitive. The LDL-ganglioside interaction was further investigated by steady state fluorescence spectroscopy. Changes in the LDL fluorescence polarization were observed with as little as 0.01 M concentrations of the gangliosides. The magnitude and nature of the effect depended on the type of ganglioside. We conclude that the LDL surface possesses sites recognizing specific carbohydrate sequences of glycoconjugates and that changes in the cell surface concentrations of sialic acids significantly modulate the LDL uptake. It is postulated that shedding of gangliosides into the blood stream may be a factor involved in regulation of cholesterol homeostasis.Abbreviations MAH mouse ascites hepatoma 22a - LDL low density lipoprotein - ASM anthrylvinyl-labeled sphingomyelin [N-12-(9-anthryl-trans-dodecanoyl-sphingosine-1-phosphocholine] - RITC rhodamine isothiocyanate. The designation of gangliosides follows the IUPAC-IUB recommendation [1]: G_M3, II³NeuAc-LacCer, II³-N-acetylneuraminosyllactosylceramide - G_M2 II³-NeuAc-GgOse₃Cer, II³-N-acetylneuraminosylgangliotriaosylceramide - G_M1 II³-NeuAc-GgOse₄Cer, II³-N-acetylneuraminosylgangliotetraosylceramide - G_D1a, II³ IV³(NeuAc)₂-GgOse₄Cer, II³, IV³-di(N-acetylneuraminosyl)gangliotetraosylceramide - G_T1b II³(NeuAc)₂, IV³ NeuAc-GgOse₄Cer, II³-di-N-acetylneuraminosyl, IV³-N-acetylneuraminosylgangliotetraosylceramide     

Shedding of Gangliosides by Human Medulloblastoma Cells

Shedding of immunosuppressive gangliosides is an important characteristic of both experimental and human tumors. Using a medulloblastoma cell line, Daoy, with a very high ganglioside expression (141 ± 13 nmol/10⁸cells) and a well-characterized ganglioside complement, we have now studied ganglioside shedding by human brain tumor cells. Shedding of gangliosides, quantified by metabolic radiolabeling, was significant (169 pmol/10⁸cells/h) and was generalized with respect to the major ganglioside carbohydrate structures (G_M2, G_M3, and G_D1a). For each ganglioside, however, shedding was selective for ceramide structures containing shorter fatty acyl chains. Rapid and ceramide-selective shedding was confirmed in two additional human medulloblastoma cell lines, D341 Med and D283 Med (112 and 59 pmol/10⁸cells/h). Significant ganglioside shedding is therefore a common characteristic of human medulloblastoma cells and may influence the biological behavior of this tumor, in view of immunosuppressive and other biological properties of shed gangliosides.     

Immunochemical analysis of the carbohydrate moiety of yeast killer toxin K28

Killer toxin K₂₈, a 16 kd protein secreted by the wine yeast Saccharomyces cerevisiae strain 28, was reversibly bound by a column of Concanavalin A-Sepharose, confirming its glycoprotein nature. HPLC analysis of acid hydrolyzates of K₂₈ toxin as well as Western-blots of -eliminated and/or endo H-treated killer toxin preparations probed with polyclonal -toxin antibodies revealed that the carbohydrate moiety of K₂₈ consists of D-mannose only, which is O-glycosidically linked via Ser/Thr residues to the protein part. The change in gel mobility of K₂₈ after -elimination was caused by a decrease in molecular mass of about 1,800, corresponding to a carbohydrate moiety of 10 mannose residues per killer toxin molecule.     

Preparation of the tritiated molecular forms of gangliosides with homogeneous long chain base composition

Gangliosides G_M2, G_M1 and G_D1b were radiolabelled at C-6 of the terminal galactose orN-acetylgalactosamine by the galactose oxidase/[³H]NaBH₄ method; gangliosides G_M2, G_M1, Fuc-G_M1 and G_D1a were radiolabelled at C-3 of the long chain base by the 2,3-dichloro-5,6-dicyanobenzoquinone/[³H]NaBH₄ method.By application of an original HPLC procedure, eight different molecular species were prepared from each labelled ganglioside. Each of these species was characterized by the presence of one of the following long chain bases:erythro C18 sphingosine,threo C18 sphingosine,erythro C18 sphinganine,threo C18 sphinganine,erythro C20 sphingosine,threo C20 sphingosine,erythro C20 sphinganine andthreo C20 sphinganine.From G_D1b only the species containing theerythro forms of long chain bases were obtained.The individual molecular species were more than 99% homogeneous and had a radiopurity better than 99%. The molecular species of the same ganglioside, radiolabelled at C-3 of the long chain base, had identical specific radioactivity, namely 1.17, 1.25, 0.85 and 1.28 Ci/mmol for G_M2, G_M1, Fuc-G_M1 and G_D1a respectively. The molecular species of the same ganglioside, radiolabelled at C-6 of terminal galactose orN-acetylgalactosamine, had similar specific radioactivity, namely 1.34–1.40, 1.44–1.51, 1.37–1.44 Ci/mmol for G_M2, G_M1 and G_D1b respectively.     

STALOSYLGALACTOSYL CERAMTDE AS A SPECIFIC MARKER FOR HUMAN MYELIN AND OLIGODENDROGLIAL PERIKARYA: GANGLIOSIDES OF HUMAN MYELIN, OLIGODENDROGLIA AND NEURONS

Gangliosides were isolated from human brain myelin, oligodendroglia, and neurons. Quantitative analysis revealed the following ganglioside contents: myelin, 2.0; neurons, 1.3; and oligodendroglia, 0.35 μg ganglioside sialic acid per mg protein. Myclin had a relatively simple ganglioside pattern with G_M4 and G_M1 as the predominant ganglioside species. The ganglioside pattern of oligodendroglia was quite complex and it resembled that of whole white matter rather than that of myelin. A high concentration of G_M4 was found in oligodendroglial fractions in addition to G_M1, G_D1a, G_D1b, and G_T1b. The usually- minor brain gangliosides G_M3, G_M2, and G_M3 were also enriched in oligodendroglia. The neuronal ganglioside pattern was generally similar to the pattern of whole gray matter. Both neurons and whole gray matter contained very low amounts of G_M4. These results indicate that G_M4 is specifically localized in myelin and oligodendroglia of the CNS. Evidence is also presented that myelin, but not oligodendroglia, is the major reservoir of human white matter G_M1 and G_M4.     

Polarized distribution of GM1-ganglioside in human duodenal absorptive enterocytes as visualized with cholera toxin-gold complex

Cholera toxin bound to particles of colloidal gold was used to investigate by electron microscopy the binding of the toxin in human duodenum. Cholera toxin binding was detected only in the apical (brush border) plasma membrane domain suggesting that the ganglioside G_M1 is absent from the basolateral plasma membrane domain. Intracellularly, toxin binding became detectable in thetrans side of the Golgi apparatus. Labeling of endosomes may indicate that the non toxin-occupied G_M1-ganglioside becomes internalized.     

Density-dependent recognition of cell surface GM3 by a certain anti-melanoma antibody, and GM3 lactone as a possible immunogen: requirements for tumor-associated antigen and immunogen

A mouse monoclonal antibody M2590, previously established after immunization of mice (C57BL/6) with syngeneic melanoma B16 cells and showing preferential reactivity with various types of melanoma over other tumor and normal cells or tissues, was shown to be directed to GM3 ganglioside. Since GM3 is widely distributed in essentially all types of animal cells, there is a conflict with the concept of a tumor-associated antigen and immunogen. Studies on the reactivity of M2590 antibody with various cells having different GM3 density at their cell surface, including cells treated with sialidase, liposomes, and solid-phase lipid layer containing different GM3 concentrations, have indicated that 1) reactivity of the antibody M2590 depends greatly on the density of GM3 exposed at the cell surface, on liposomes, or on solid phase; and 2) there is a threshold density that is recognized by the antibody in all-or-none fashion. In addition, the antibody M2590 reacts not only with GM3 but also with GM3 lactone, and the binding affinity of the antibody to GM3 lactone is strikingly higher than to GM3; however, the antibody does not react with GM3 ethyl ester. GM3 lactone was detected in melanoma as 3H-labeled GM3 gangliosidol after melanoma cells were directly treated with NaB[3H]4. A comparative immunization of BALB/c mice with GM3 and GM3 lactone showed that GM3 lactone is a much stronger immunogen than GM3, although the antibody elicited reacts with both GM3 and its lactone. Thus, the real immunogen could be GM3 lactone, although it is a minor membrane component.     

Effect of thyroid deficiency on Go α-subunit isoforms in developing rat cerebral cortex

Postnatal development of G_o isoforms in rat cerebral cortex was studied by SDS-PAGE and immunoblotting. When rat cerebral cortical membranes were resolved on separating gels containing 9% acrylamide and 8 M urea, three electrophoretically distinct G_o-immunoreactive proteins were evident. Comparison of their electrophoretic mobilities and partial tryptic digest pattern with recombinant G_o1 or G_o1-specific antibody revealed that the slowest and intermediate-migrating bands represent unmodified and fatty acylated forms of G_o1 protein, respectively. The fastestmigrating band corresponds to G_o2. While the fatty acylated form of G_o1 is the predominant species, its appearance paralleled that observed for G_o2 in developing rat cortex. Perinatal hypothyroidism induced by methimazole treatment did not significantly alter the appearance of cerebral cortical G_o1 and G_o2 between days 1 and 22 postpartum. Our findings support the earlier idea that heterogeneity of G_o proteins in mammalian brain is likely the result of different co- or post-translational processings of each splice variant of G_o. While the appearance of G_o isoforms is developmentally regulated, they likely do not play an obligatory role in neonatal brain development. Alternatively, the expression of G_o isoforms in developing rat cortex may be controlled by an intrinsic signal(s) that is independent of the thyroid status.     

Novel structural insights into rotavirus recognition of ganglioside glycan receptors

Rotaviruses ubiquitously infect children under the age of 5, being responsible for more than half a million diarrhoeal deaths each year worldwide. Host cell oligosaccharides containing sialic acid(s) are critical for attachment by rotaviruses. However, to date, no detailed three-dimensional atomic model showing the exact rotavirus interactions with these glycoconjugate receptors has been reported. Here, we present the first crystallographic structures of the rotavirus carbohydrate-recognizing protein VP8^? in complex with ganglioside G_M3 glycans. In combination with assessment of the inhibition of rotavirus infectivity by N-acetyl and N-glycolyl forms of this ganglioside, our results reveal key details of rotavirus-ganglioside G_M3 glycan recognition. In addition, they show a direct correlation between the carbohydrate specificities exhibited by VP8^? from porcine and by monkey rotaviruses and the respective infectious virus particles. These novel results also indicate the potential binding interactions of rotavirus VP8^? with other sialic acid-containing gangliosides.     

Quartz crystal microbalance investigation of the interaction of bacterial toxins with ganglioside containing solid supported membranes

The binding of cholera toxin, tetanus toxin and pertussis toxin to ganglioside containing solid supported membranes has been investigated by quartz crystal microbalance measurements. The bilayers were prepared by fusion of phospholipid-vesicles on a hydrophobic monolayer of octanethiol chemisorbed on one gold electrode placed on the 5 MHz AT-cut quartz crystal. The ability of the gangliosides G_M1, G_M3, G_D1a, G_D1b, G_T1b and asialo-G_M1 to act as suitable receptors for the different toxins was tested by measuring the changes of quartz resonance frequencies. To obtain the binding constants of each ligand-receptor-couple Langmuir-isotherms were successfully fitted to the experimental adsorption isotherms. Cholera toxin shows a high affinity for G_M1 (K_a = 1.8 ⋅ 10⁸M^–1), a lower one for asialo-G_M1 (K_a = 1.0 ⋅ 10⁷ M^–1) and no affinity for G_M3. The C-fragment of tetanus toxin binds to ganglioside G_D1a, G_D1b and G_T1b containing membranes with similar affinity (K_a∼10⁶ M^–1), while no binding was observed with G_M3. Pertussis toxin binds to membranes containing the ganglioside G_D1a with a binding constant of K_a = 1.6 ⋅ 10⁶ M^–1, but only if large amounts (40 mol%) of G_D1a are present. The maximum frequency shift caused by the protein adsorption depends strongly on the molecular structure of the receptor. This is clearly demonstrated by an observed maximum frequency decrease of 99 Hz for the adsorption of the C-fragment of tetanus toxin to G_D1b. In contrast to this large frequency decrease, which was unexpectedly high with respect to Sauerbrey's equation, implying pure mass loading, a maximum shift of only 28 Hz was detected after adsorption of the C-fragment of tetanus toxin to G_D1a. Received: 14 January 1997 / Accepted: 15 April 1997     

Activator proteins for sulphatide hydrolysis and GM1-ganglioside hydrolysis. Probable identity on the basis of their co-purification,properties, ligand binding and immunochemical interactions

The concurrent purification of the activator protein for sulphatide hydrolysis and for G_M1-ganglioside hydrolysis including chromat ofocusing and hydrophobic chromatography stages is described. The purified preparation has a pl of 4.2 and the sub-unit M_r is 10 000. The stoichiometry of binding of sulphatide and ganglioside to the protein is very similar. Both activities are removed in similar proportions on binding to IgG purified from antisera raised against the activator protein. The probable identity of the activator protein for sulphatide hydrolysis with that for G_M1-ganglioside hydrolysis and a molecular explanation for this identity are discussed.