Sialic acid and GM3 ganglioside expression in papillomavirus-associated urinary bladder tumours of cattle with chronic enzootic haematuria.

This study was based on 30 papillomavirus-associated urinary bladder tumours from cattle with chronic haematuria, the animals having been kept since birth on pasture rich in bracken fern. The ganglioside content was assessed and compared with that of normal bovine urinary bladders, which was shown to be 28.6+/-3.3 (mean+/-SD) microg of lipid-bound sialic acid per gram of fresh tissue. In neoplastic bladder samples this value was higher but variable (120.9+/-80.6 in benign tumours, and 94.7+/-45.7 in malignant tumours). The main ganglioside, GM3, represented ca 75% of the total ganglioside mixture in normal tissues and 50-80% in tumour samples. GM1, GM2, GD1a, GD3 and FucGM1 were found as minor components. The study suggested that GM3 ganglioside may have a crucial role in "downregulation" of the metastatic potential of bovine urothelial cancers.

Preparation of deacetyl-, lyso-, and deacetyl-lyso-GM(3) by selective alkaline hydrolysis of GM3 ganglioside.

Three methods (using GM3 quantities ranging from a few milligrams to grams) have been developed to prepare, in high yield, the three derivatives of ganglioside GM3 [alpha-Neu5Ac-(2-3)-beta-Gal-(1-4)-beta-Glc-(1-1)-ceramide]: deacetyl-GM3 [alpha-Neu-(2-3)-beta-Gal-(1-4)-beta-Glc-(1-1)-ceramide], lyso-GM3 [alpha-Neu5Ac-(2-3)-beta-Gal-(1-4)-beta-Glc-(1-1)-sphingosine], and deacetyl-lyso-GM3 [alpha-Neu-(2-3)-beta-Gal-(1-4)-beta-Glc-(1-1)-sphingosine]. This is the first report of the preparation of lyso-GM3 by a one-pot reaction. We can now define the optimal conditions for the different preparations. Preparation of deacetyl-GM3: alkaline reagent, 2 M KOH in water; GM3 concentration, 33 mg/ml; reaction temperature, 90 degrees C; reaction time, 3.5 h; nitrogen atmosphere. Preparation of deacetyl-lyso-GM3: alkaline reagent, 8 M KOH in water; GM3 concentration, 10 mg/ml; reaction temperature, 90 degrees C; reaction time, 18 h; nitrogen atmosphere. Preparation of lyso-GM(3): alkaline reagent, 1 M sodium tert-butoxide in methanol; GM3 concentration, 10 mg/ml; reaction temperature, 80 degrees C; reaction time, 18 h; anhydrous conditions. The percentage yield of deacetyl-GM3 was 70;-75%, that of deacetyl-lyso-GM3 100%, and of lyso-GM3 36;-40%.Deacetyl-GM3, deacetyl-lyso-GM3, and lyso-GM3 were purified by column chromatography, and chemical structures were confirmed by electron spray-mass spectrometry.

Association of Src-family protein tyrosine kinases with sphingolipids in rat cerebellar granule cells differentiated in culture.

Src family kinases play a relevant role in the development and differentiation of neuronal cells. They are abundant in sphingolipid-enriched membrane domains of many cell types, and these domains are hypothesized to function in bringing together molecules important to signal transduction. We studied the association of Src family tyrosine kinases and their negative regulatory kinase, Csk, with sphingolipids in sphingolipid-enriched domains of rat cerebellar granule cells differentiated in culture. We find that c-Src, Lyn and Csk are enriched in the sphingolipid-enriched fraction prepared from these cells. Coimmunoprecipitation experiments show that these and sphingolipids are part of the same domain. Cross-linking experiments with a photoactivable, radioactive GD1b derivative show that c-Src and Lyn, which are anchored to the membrane via a myristoyl chain, associate directly with GD1b. Csk, which is not inserted in the hydrophobic core of the membrane, is not photolabeled by this ganglioside. These results suggest that lipid-lipid, lipid-protein, and protein-protein interactions cooperate to maintain domain structure. We hypothesize that such interactions might play a role in the process of neuronal differentiation.

A procedure for the preparation of GM3 ganglioside from GM1-lactone.

A simple procedure is described for preparing GM3 ganglioside, from a few milligrams to grams, from GM1-lactone (Sonnino et al., (1985) Glycoconjugate J 2: 343-54) [1]. The synthesis was carried out under the following optimal conditions: 30 mM GM1-lactone in 0.25 M H2SO4 in DMSO, 30 min, 70 degrees C, nitrogen atmosphere, strong stirring. The yield of GM3 was 55%. The procedure applied to milligram amounts of GD1b-dilactone gave GD3 ganglioside.

Isolation and structural characterization of N-acetyl- and N-glycolylneuraminic-acid-containing GalNAc-GD1a isomers, IV4GalNAcIV3Neu5AcII3Neu5GcGgOse4Cer and IV4GalNAcIV3Neu5GcII3Neu5AcGgOse4Cer, from bovine brain.

A ganglioside preparation containing two structurally related minor gangliosides (Gg 1 + 2) was isolated from bovine brain ganglioside mixture and characterized. Treatment of 50 g ganglioside mixture with Clostridium perfrigens sialidase, followed by chromatography on DEAE-Sepharose and silica gel columns, yielded 20 mg Gg 1 + 2. By chemical analyses, 1H- and 13C-NMR spectroscopy, enzymic hydrolyses using human beta-hexosaminidase A and clostridial sialidase, and TLC overlay with the conjugated cholera toxin B subunit, the two novel gangliosides Gg 1 and Gg 2 were identified to be: Gg 1, GalNAc-GD1a(Neu5Ac/Neu5Gc), beta-GalNAc-(1-4)-[alpha-Neu5Ac-(2-3)]-beta- Gal-(1-3)-beta-GalNAc-(1-4)-[alpha-Neu5Gc-(2-3)]-beta-Gal-(1-4)-be ta- Glc-(1-1)-Cer; Gg 2, GalNAc-GD1a(Neu5Gc/Neu5Ac), beta-GalNAc-(1-4)-[alpha-Neu5Gc-(2-3)]- beta-Gal-(1-3)-beta-GalNAc-(1-4)-[alpha-Neu5Ac-(2-3)]-beta-Gal-(1- 4)-beta- Glc-(1-1)-Cer. These two gangliosides contain the identical pentasaccharide backbone except that the substitution of the two sialic acids, Neu5Ac and Neu5Gc, are in the reversed position of the external and the internal Gal residues. Our analyses showed that the content of Gg 1 and Gg 2 were approximately 0.12% and 0.08%, respectively, of the total brain ganglioside mixture.

Specific recognition of N-acetylneuraminic acid in the GM2 epitope by human GM2 activator protein.

GM2 Activator is a low molecular weight protein cofactor that stimulates the enzymatic conversion of GM2 into GM3 by human beta-hexosaminidase A and also the conversion of GM2 into GA2 by clostridial sialidase (Wu, Y.-Y., Lockyer, J.M., Sugiyama, E., Pavlova, N.V., Li, Y.-T., and Li, S.-C. (1994) J. Biol. Chem. 269, 16276-16283). Among the five known activator proteins for the enzymatic hydrolysis of glycosphingolipids, only GM2 activator is effective in stimulating the hydrolysis of GM2. However, the mechanism of action of GM2 activator is still not well understood. Using a unique disialosylganglioside, GalNAc-GD1a, as the substrate, we were able to show that in the presence of GM2 activator, GalNAc-GD1a was specifically converted into GalNAc-GM1a by clostridial sialidase, while in the presence of saposin B, a nonspecific activator protein, GalNAc-GD1a was converted into both GalNAc-GM1a and GalNAc-GM1b. Individual products generated from GalNAc-GD1a by clostridial sialidase were identified by thin layer chromatography, negative secondary ion mass spectrometry, and immunostaining with a monoclonal IgM that recognizes the GM2 epitope. Our results clearly show that GM2 activator recognizes the GM2 epitope in GalNAc-GD1a. Thus, GM2 activator may interact with the trisaccharide structure of the GM2 epitope and render the GalNAc and NeuAc residues accessible to beta-hexosaminidase A and sialidase, respectively.

Synthesis and aggregative properties of GM1 ganglioside (IV3Neu5AcGgOse4Cer) containing D-(+)-2-hydroxystearic acid.

GM1 ganglioside containing a hydroxylated fatty acid moiety, GM1(OH), was synthesized starting from lyso-GM1 and D-(+)-2-hydroxystearic acid. The aggregative, geometrical and distribution properties of GM1(OH) were compared with those of stearic acid containing GM1 ganglioside; laser light scattering measurements, differential scanning calorimetry and fluorescence spectroscopy were used. GM1 and GM1(OH) are present in solution as micelles with a hydrodynamic radius of 58.7 and 60.0 A, and molecular mass of 470 and 570 kDa, respectively. The surface area occupied by the monomer of GM1(OH) at the lipid-water interface of the aggregate was calculated to be 117 A2, which is 3 A2 lower than that determined for GM1. Proton NMR analyses of GM1 and GM1(OH) suggest different three-dimensional structures at the ganglioside lipid-water interface. Both GM1(OH) and GM1 inserted into dipalmitoylphosphatidylcholine (DPPC) vesicles undergo segregation phenomena, with the formation of ganglioside-enriched microdomains, but GM1(OH) shows a higher degree of dispersion in the DPPC matrix and exerts a lower rigidifying effect than does GM1.

Congenital muscular dystrophy, brain and eye abnormalities: one or more clinical entities?

Four children with congenital muscular dystrophy (CMD), eye and brain abnormalities are described. Their clinical and neuroradiological features are compatible with a diagnosis of Walker-Warburg syndrome (WWS), according to the criteria proposed by Dobyns et al. (i.e., presence of type II lissencephaly, typical cerebellar and retinal malformations, CMD), who also conclude that WWS is indistinguishable from the muscle-eye-brain disease (MEBD) described by Santavuori. On the basis of our own experience and two recently published series, we emphasize certain features that are different in patients with WWS and patients with MEBD, which make their inclusion in the same syndrome dubious.

Changes of the human liver GM3 ganglioside molecular species during aging.

Sialosyl-lactosylceramide, GM3, is the major ganglioside of human liver, where it constitutes more than 90% of the total lipid-bound sialic acid. When analyzed by thin-layer chromatography, human liver GM3 migrates as two main spots. They are representative of ganglioside molecular species which differ in the acyl moiety. The faster running spot is mainly composed of molecular species with non-hydroxylated C22-C24 acyl chains; the other contains mainly molecular species bearing non-hydroxylated C16-C18 and alpha-hydroxylated C16-C24 acyl chains. In this study the content of the two GM3 molecular species groups was investigated in 31 subjects ranging from 19 to 85 years of age. By thin-layer chromatography we observed that the group of molecular species containing non-hydroxylated C22-C24 acyl chains, decreased linearly with subject age, while that of non-hydroxylated C16-C18 acyl chains and hydroxylated C16-C24 acyl chains increased linearly. Fast-atom-bombardment mass spectrometry performed on seven samples from subjects ranging from 21 to 78 years of age demonstrated that the age-dependent increase of the lower spot is caused by an increase in the hydroxylated fatty acid form of GM3, the content of non-hydroxylated C16-C18 fatty acid species remaining constant with age.

Aggregation properties of GD1b, II3Neu5Ac2GgOse4Cer, and of GD1b-lactone, II3[alpha-Neu5Ac-(2----8, 1----9)-alpha-Neu5Ac]GgOse4Cer, in aqueous solution.

The relevance of the presence of an inner ester in the oligosaccharide chain on the aggregative properties of gangliosides is investigated. Micellar molecular weight and hydrodynamic radius of natural GD1b and of semisynthetic GD1b-lactone are measured by the laser light scattering technique. The presence of the lactone ring causes an increase of 36% for the molecular weight and 16% for the hydrodynamic radius. Measurements on mixtures of GD1b and GD1b-lactone show that mixed micelles are formed with microdomain structure. The results are interpreted in terms of the geometrical packing model for the aggregation of amphiphilic molecules and are correlated to membrane processes.

Partial duplication of 17 long arm.

Three subjects from 2 unrelated families with partial duplication of 17q, derived from a reciprocal parental translocation between chromosomes 11 and 17 with different breakpoints, are described. A female patient from one family with a 46,XX,-11,+der(11),t(11;17)(q24;q23.2)pat chromosome complement had died at 2 months of age. In the second family, a male propositus and a subsequent fetus, identified by cytogenetic prenatal diagnosis, showed a 46,XY,-11,+der(11),t(11;17)(q2505,q24.3) mat chromosome complement. Twelve other cases involving partial duplication of chromosome 17 have been reported, 11 of these derived from a balanced translocation, and 1 was a duplication. All these cases showed psychomotor and mental retardation, cranial contour anomalies, micrognathia, bulbous nose, short neck, skeletal anomalies, and CNS defects. The phenotypic and clinical observations in the three subjects of this report are compared with previously reported findings.