Robert H. McCluer

Quantitative microanalysis of oligosaccharides by high-performance liquid chromatography☆

Abstract The rapid separation and quantitative determination of per- O -benzoyl oligosaccharides were obtained using high performance, liquid chromatography. Oligosaccharides were completely O -benzoylated without concomitant N -benzoylation of acetamidodeoxyhexoses. Benzoylation prior to analysis allowed a quantitative determination of picomolar amounts because the absorbance at 230 nm of these derivatives is directly proportional to the number of benzoyl groups present. Separation by normal and reversed-phase chromatography was demonstrated, and the best resolution was obtained on an Ultrasphere octyl column. Excellent separations of oligosaccharides containing up to 10 sugar residues present in mannosidosis urine and of malto-oligosaccharides containing up to 15 sugar residues present in Karo syrup were achieved within an analysis time of 30 min. Anomers of maltose, maltotriose, and maltotetraose were separated; for this reason, reduction of complex samples prior to analysis is advisable. The effect of linkage configuration on retention time was tested with reduced, α-linked di- and tri-glucopyranosides. The presence of an acetamidodeoxyhexose residue in an oligosaccharide significantly reduced its retention time, whereas branching had the opposite effect. A linear response was obtained for the injection of 1–600 pmol of raffinose, and the detection limit was 0.5 pmol. Derivatization and analysis of raffinose was shown to yield reproducible results within the range 0.01–1 μmol, and, with special precautions to minimize losses, as little as 100 pmol could be analyzed successfully.

Quantitation of the rabbit intestinal glycolipid receptor for Shiga toxin

Shiga toxin, produced by Shigella dysenteriae 1, causes enterotoxic, cytotoxic, and neurotoxic effects, which may be mediated by a glycolipid receptor, globotriaosylceramide, Gb3. To study the relationship of this receptor and toxin effects, globotriaosylceramide was quantitated and further characterized in rabbit small intestinal microvillus membranes at various ages. Glycolipids were extracted from rabbit microvillus membranes, purified on Unisil columns, and quantitated by high-performance liquid chromatography. The major glycolipid peaks were hydroxylated fatty acid-containing glucosylceramide, lactosylceramide, and globotriaosylceramide. There was a marked increase of globotriaosylceramide levels with age, ranging from 0.02 to 16.2 pmol/micrograms microvillus membrane protein in neonates and adults, respectively. The globotriaosylceramide peak was susceptible to alpha-galactosidase treatment, which produced an elevation in the lactosylceramide peak, but markedly reduced globotriaosylceramide content in 34-day-old rabbits. Binding of iodinated Shiga toxin to globotriaosylceramide was documented on high-performance thin-layer chromatography plates by autoradiography. The glycolipid receptor for Shiga toxin in rabbit microvillus membranes is thus a hydroxylated fatty acid-containing globotriaosylceramide. This moiety is virtually absent in neonates and gradually increases with age. Quantitative differences in globotriaosylceramide may be the underlying basis for the age-specific differences in functional responsiveness of rabbit intestinal tissue to Shiga toxin.

Ganglioside Inner Esters

The glycosphingolipids are derivatives of N-acylsphingosines (ceramide) to which a carbohydrate unit, composed of one or more glycosyl moieties, is bound glycosidically in a β linkage to the hydroxyl at carbon 1 of sphingosine. The gangliosides are glyco-sphingolipids which contain one or more sialic acid residues as one of the glycosyl moieties (1). Gangliosides occur in most organs and body fluids but their highest concentration is in the central nervous system. The brain gangliosides are primarily located in neuronal dendritic processes and different brain areas have significantly different complements of the various gangliosides. Analyses of subcellular fractions have revealed that the ganglioside content of nuclei, mitochondria and synaptic vesicles is low while microsomes and synaptic membranes contain the highest amount of gangliosides. Thus gangliosides appear to be neuronal membrane components and perhaps participate in the complex molecular events at the synapse which are necessary for information processing. The combination of a large hydrophilic moiety with a strongly charged sialic acid and the hydrophobic ceramide portion suggest that gangliosides are membrane components which are suited for interaction with the microenvironment. It is possible that interaction of gangliosides with cations could lead to changes in the molecule which would in turn produce changes in the properties of the synaptic membrane. Calcium has a pronounced effect on the solubility of gangliosides. Reactions which would alter the number of negative charges in a ganglioside molecule such as formation of an ester could conceivably play an important role in modification of synaptic membrane properties.

β-Glucosidase inhibition in murine peritoneal macrophages by conduritol-B-epoxide: an in vitro model of the Gaucher cell

Murine peritoneal macrophages were cultured in the presence of conduritol-B-epoxide, a specific covalent inhibitor of beta-glucosidase. The inhibition was found to be dose and time dependent. Upon removal of the inhibitor from the culture medium, beta-glucosidase activity recovered to half maximum by 2.2 days. Treatment of macrophages with this inhibitor for 15 days did not affect cell viability, lysosomal enzyme release to the medium, or levels of intracellular lysosomal enzymes, other than beta-glucosidase activity. This inhibition results in the accumulation of glucocerebroside. In vitro studies on the pathobiology of such macrophages whose beta-glucosidase activity has been reduced may be useful toward understanding the pathogenesis of Gaucher disease.

The accumulation and metabolism of glycosphingolipids in primary kidney cell cultures from beige mice

In the normal C57BL/6J male mouse a specific subset of the kidney glycosphingolipids which is associated with multilamellar bodies of lysosomal origin and represents about 10% of the total kidney glycolipids, is excreted into the urine each day. This excretion is blocked and glycosphingolipids accumulate in the kidney of bgJ/bgJ mutants of this strain. To examine this process in vitro, glycosphingolipid metabolism and excretion were studied in beige mouse kidney cell cultures. Primary kidney cell cultures from male C57BL/6J control and bgJ/bgJ beige mutants were grown in D-valine medium and glycosphingolipids labeled with [3H]palmitate. As we have shown previously, the giant lysosomes of altered morphology were maintained in cultures of the beige kidney cells. Beige-J and control cells synthesized the same types of glycosphingolipids, but the mutant cells had quantitatively higher levels of these compounds than control cells, as determined by high performance liquid chromatography. Beige-J cells incorporated more [3H]palmitate into glycospingholipids than control cells on a cpm/mg protein basis and the specific activity (cpm/pmole glycosphingolipid) was lower in beige cells. Medium from beige-J cells accumulated more glycosphingolipids than that from control cells in a 24 h period. The glycosphingolipids released into the medium as determined by HPLC were primarily non-lysosomal types and both control and mutant cells retained the glycosphingolipids associated with lysosomal multilamellar bodies excreted in vivo. The elevated levels of lysosomal glycosphingolipids and the dysmorphic lysosomes in primary cultures of beige cells, then, are not caused by a mutant block in secretion of lysosomes. (Mol Cell Biochem 118: 61–66, 1992)

EXPRESSION OF GLYCOSPHINGOLIPIDS IN SERUM-FREE PRIMARY CULTURES OF MOUSE KIDNEY CELLS : MALE-FEMALE DIFFERENCES AND ANDROGEN SENSITIVITY

The expression of neutral glycosphingolipids was examined in primary kidney cell cultures derived from adult male and female beige mutant mice (C57BL/6J;bgj/bgj) with enrichment for proximal tubule cells during preparation of explants and using defined serum-free medium for the culture conditions. Cell proliferated for 7 daysin vitro to provide confluent or nearly confluent monolayers of epithelial-type growth indicative of proximal tubule cells. The malevs female differences in neutral glycosphingolipids seen in the kidneyin vivo were retained in these 7 day cultures. Cultures derived from males contained galacto- and digalactosylceramides whereas those from females did not express these types of glycolipids. Also, male cells had higher ratios of sphingosine: phytosphingosine containing species in Nfa (non-hydroxy fatty acid) globotriaosylceramide and in glucosylceramide than females. The shift in sphingosine: phytosphingosine to male ratios in Nfa globotriaosylceramide and in glucosylceramide could be stimulated in female kidney cells by treatment with 10−5 M testosterone or 5α-dihydrotestosterone. The male-specific expression of neutral glycosphingolipids, then, appears to be stable character of male-type differentiation in mouse kidney that is passed on during proliferation in culture. Female kidney cells retain an ability to respond to androgens with specific changes in neutral glycosphingolipid expression during 7 days of growthin vitro in serum-free conditions, but do not respond with the induction of the male-specific glycolipids galacto-and digalactosylceramides as seenin vivo.

Characterization of SSEA-1 glycolipids from the brain of a patient with fucosidosis.

Neutral glycolipids from the brain of a patient with Fucosidosis were analyzed and two complex glycolipids containing five and eight sugars were isolated from the cortical grey matter. These two glycolipids reacted with antibodies recognizing the SSEA-1 [Lex(X)] carbohydrate determinant. SSEA-1 glycolipids are normally expressed in human embryonic brain but are found in only small amounts in postnatal human brain. The accumulation of the two SSEA-1 glycolipids in Fucosidosis brain thus represents a defect which affects the normal developmentally regulated decrease in postnatal, expression of these glycolipids, and may be a contributing factor in the abnormal brain development associated with the disease. Chemical characterization of the two isolated glycolipids by gas chromatographic and mass spectrometric analyses has identified the two glycolipids as lacto-N-fucopentaosylceramide (III) and difucosyl-neolactonorhexaosylceramide.

Characterization of feline omentum lipids

Feline omental lipid extracts, previously reported to be angiogenic in the cornea of rabbits, were fractionated and the major lipid components characterized. Approximately 97% of the chloroform/methanol extract consisted of triglycerides containing primarily 16∶0, 18∶0, 18∶1 and 18∶2 fatty acids. Trace quantities of free fatty acids, cholesterol, di- and monoglycerides were also detected. The phospholipid fraction, obtained by solvent partition and Unisil column chromatography and characterized by high performance liquid chromatography (HPLC)-mass spectrometry, was found to consist of phosphatidylcholine, sphingomyelin, phosphatidylethanolamine and phosphatidylserine. The neutral glycolipids, isolated by solvent partition and Unisil column chromatography and identified by high performance thin layer chromatography and HPLC of their perbenzoylated derivatives, were found to consist of glucosyl- and galactosylceramides, galabiosylceramide, lactosylceramide, globotriaosylceramide and globotetraosylceramide. The complex glycolipid fraction, obtained from Folch upper phase solvent partition, was found to consist primarily of Forssman glycolipid and gangliosides GM3 and GD3. Smaller amounts of GM1 and other unidentified gangliosides were also present.

Biochemical and morphological characterization of primary kidney cell cultures from beige mutant mice.

SummaryPrimary kidney cultures from adult beige-J (bgJ/ bgJ) mice were selected for epithelial cell growth using D-valine medium. After 2 weeks of attachment and proliferation in vitro, the cells form a confluent or nearly confluent monolayer that retains several phenotypic characteristics of the beige-J mutant. These include large, multilamellar inclusion bodies that are apparently dysmorphic lysosomes, and higher concentrations of neutral glycosphingolipids and dolichols than control cells. β-Glucuronidase activity, used as a lysosomal enzyme marker, is not elevated in beige-J-cultured kidney cells compared with controls, as it is in the intact kidney. The high levels of β-glucuronidase activity in both control and mutant cells may mask expression of this difference in vitro. The action of the beige-J mutation in kidney cells is thought to be due to a block in exocytosis that results in the accumulation of abnormal lysosomes and their components. The maintenance of the beige phenotype in vitro indicates that the mutation is not suppressed in primary kidney cell cultures. The expression of the beige phenotype in vitro should be useful for studies concerning the primary lesion of this mutation.

High Performance Liquid Chromatography of Oligosaccharides from Human Milk and Colostrum

Human milk is unique with respect to the high concentration and complexity of its oligosaccharide fraction. Polonovsky and Lespagnol1 isolated and studied a human milk fraction which they named gynolactose and reported that it contained mostly oligosaccharides, Montreuil and Mullet2 determined that this fraction comprises 2.4% of human colostrum and between 1.2 and 1.3% of mature human milk. Thus, the oligosaccharide fraction is the fourth largest constituent of human milk, after water, lactose, and fat, and represents a significant portion of the non-protein nitrogen found therein. This fraction proved to be a rich source of a wide variety of oligosaccharides, in contrast to the analogous fraction from bovine milk which comprised only 0.1% and consisted of a limited number of oligosaccharide types3