Effects of alpha1-acid glycoprotein fucosylation on its Ca2+ mobilizing capacity in neutrophils.

We recently showed that the acute-phase protein alpha(1)-acid glycoprotein (AGP) induces rises in cytosolic calcium concentration, [Ca(2+)](i,) in neutrophils through sialic acid dependent interactions with the neutrophil receptors siglec-5 and/or siglec-14. Whereas both siglec-5 and siglec-14 have a relatively broad specificity for sialylated oligosaccharide structures, including both structures with terminal alpha2-3 or alpha2-6 linked sialic acid, there is a markedly reduced affinity to the fucosylated epitope sialyl Lewis x (SLe(x)). Increased fucosylation, leading to increased expression of SLe(x) on AGP is commonly associated with inflammatory conditions. In the present study, we investigated whether an increased SLe(x) expression would affect the Ca(2+)-mobilizing effect of AGP. AGP with elevated fucose content isolated from patients with untreated chronic joint inflammation showed a decreased [Ca(2+)](i) modulatory effect on neutrophils compared to normally fucosylated AGP. Furthermore a hyperfucosylated AGP form produced by in vitro fucosylation, that consequently had an elevated expression of SLe(x), could not elicit a [Ca(2+)](i) increase in neutrophils. The role of the carbohydrate portion of AGP in modulating neutrophil responses was further strengthened by showing that synthetic glycoconjugates carrying oligosaccharides with terminal alpha2-3 or alpha2-6 linked sialic acid were able to mimic the Ca(2+)-mobilizing effect of AGP whereas a synthetic glycoconjugate carrying SLe(x) was not. Based on these data, we conclude that increased fucosylation can alter the ability of AGP to induce neutrophil signalling and further supports an important role of the oligosaccharide chains of AGP in the modulation of leukocyte functions during an inflammatory process.

Characterization of EBV-transformed B-cells established from an individual homozygously mutated (G329A) in the FUT7 alpha1,3-fucosyltransferase gene.

The alpha1,3-fucosyltransferase VII (Fuc-TVII) is involved in the biosynthesis of E- and P-selectin ligands such as sialyl Lewis x (SLe(x)) on human leukocytes. Recently, individuals were characterized carrying a missense mutation (G329A; Arg110-Gln) in the FUT7 gene encoding this enzyme. The mutated FUT7 construct produced a Fuc-TVII enzyme with impaired activity compared with the wildtype enzyme. Polymorphonuclear granulocytes from an individual carrying this mutation homozygously also showed a reduced expression of SLe(x). In the present study, we have established Epstein-Barr virus-transformed B-cell lines from this individual (SIGN) and from an individual not carrying the mutation (IWO). The cell lines were confirmed to be of B-cell origin by flow cytometry analysis. IWO cells interacted with E-selectin in an in vitro flow chamber analysis whereas SIGN cell did not. However, when SIGN cell was transiently transfected with wildtype FUT7 cDNA, interaction with E-selectin could be restored. Cell surface expression of the SLe(x)-related epitopes recognized by antibodies CSLEX-1, KM-93 and HECA-452 was elevated on IWO cells compared with that on SIGN cells, consistent with a role of these antigens in E-selectin recognition. These cell lines will be useful in further characterization of E-selectin ligands and encourage further studies on the consequences of the FUT7-G329A mutation in vivo.

Characterization of galactosyl glycerolipids in the HT29 human colon carcinoma cell line.

Glycoglycerolipids constitute a family of glycolipids with apparently very restricted expression in human tissues. They have previously been detected only in the testis and the nervous system. In the present study, two glycoglycerolipids were isolated from the HT29 human colon carcinoma cell line. The glycoglycerolipids were structurally characterized as a monogalactosylglycerolipid (1-O-alkyl-2-O-acyl-3-O-(beta-galactosyl)-sn-glycerol) and a digalactosylglycerolipid (1-O-alkyl-2-O-acyl-3-O-(beta-galactosyl(1-4)alpha-galactosyl)-sn-glycerol) using NMR and mass spectrometry. This digalactosylglycerolipid has not previously been structurally characterized. When HT29 cells were allowed to differentiate into more enterocyte-like cells by culture in glucose-free medium, expression of both of these glycoglycerolipids was greatly diminished. The presence of glycoglycerolipids in a human colon carcinoma cell line indicates that expression of this family of glycolipids may not be as restricted as previously thought. Instead this class of glycolipids may serve as differentiation antigens in various normal tissues and in tumor development. The Galalpha1-4Gal epitope was previously identified as a receptor for bacterial adhesins and toxins. The finding that this epitope is also linked to a glycerolipid moiety opens up new possible roles for this carbohydrate receptor in intracellular signaling.

Identification of a missense mutation (G329A;Arg(110)--> GLN) in the human FUT7 gene.

The human FUT7 gene codes for the alpha1,3-fucosyltransferase VII (Fuc-TVII), which is involved in the biosynthesis of the sialyl Lewis x (SLe(x)) epitope on human leukocytes. The FUT7 gene has so far been considered to be monomorphic. Neutrophils isolated from patients with ulcerative colitis were examined for apparent alterations in protein glycosylation patterns by Western blot analysis using monoclonal antibodies directed against SLe(x) and SLe(x)-related epitopes. One individual showed lower levels of SLe(x) expression and an elevated expression of CD65s compared to controls. The coding regions of the FUT7 gene from this individual were cloned, and a G329A point mutation (Arg(110) --> Gln) was found in one allele, whereas the other FUT7 allele was wild type. No Fuc-TVII enzyme activity was detected in COS-7 cells transiently transfected with the mutated FUT7 construct. The FUT7 Arg(110) is conserved in all previously cloned vertebrate alpha 1,3-fucosyltransferases. Polymerase chain reaction followed by restriction enzyme cleavage was used to screen 364 unselected Caucasians for the G329A mutation, and a frequency of < or =1% for this mutation was found (3 heterozygotes). Genetic characterization of the family members of one of the additional heterozygotes identified one individual carrying the G329A mutation in both FUT7 alleles. Peripheral blood neutrophils of this homozygously mutated individual showed a lowered expression of SLe(x) and an elevated expression of CD65s when analyzed by Western blot and flow cytometry. The homozygous individual was diagnosed with ulcer disease, non-insulin-dependent diabetes, osteoporosis, spondyloarthrosis, and Sjögren's syndrome but had no history of recurrent bacterial infections or leukocytosis.

A lectin immunosensor technique for determination of alpha(1)-acid glycoprotein fucosylation.

The fucosylation of alpha(1)-acid glycoprotein (AGP), an acute-phase protein, is known to change in association with inflammatory diseases. Thus, fucosylation of AGP could be a potential diagnostic or prognostic marker. The change in fucosylation has previously been investigated using crossed affinoimmunoelectrophoresis, high-pH anion-exchange chromatography, and lectin ELISA. This study describes a surface plasmon resonance-based affinity biosensor assay for quantification of the fucosylation of AGP. Diluted EDTA plasma or serum was injected directly in a BIACORE 2000 biosensor. AGP was captured on the sensor surface using immobilized antibodies and a fucose-binding lectin from Aleuria aurentia was then used for the detection of fucosylation. The feature of the biosensor makes it possible to determine both the amount of bound AGP and the amount of bound lectin. Using a calibration curve it was possible to obtain a fucosylation ratio that was independent of AGP concentration. The assay was validated against a lectin ELISA and used to follow inflammation in patients with severe burns.

Changes in glycosylation of human bile-salt-stimulated lipase during lactation.

Bile-salt-stimulated lipase (BSSL) is an enzyme in human milk, which is important for the fat digestion in the newborn infant. BSSL is highly glycosylated and includes one site for N-glycosylation and several sites for O-glycosylation. BSSL has previously been found to express Lewis a, Lewis b, and Lewis x carbohydrate antigens. In this study, glycosylation of BSSL was studied at different times during lactation. BSSL was purified from milk collected individually from four donors at several different times during the first 6 months of lactation. The BSSL glycans were characterized through monosaccharide analysis, high-pH anion-exchange chromatography, matrix-assisted laser desorption-ionization mass spectrometry, and ELISA. Both total carbohydrate content and relative amount of sialic acid were higher in BSSL from the first lactation month as compared to BSSL from milk collected later in lactation. BSSL from the first lactation month also showed a different composition of sialylated O-linked glycans and the N-linked oligosaccharides consisted of lower amounts of fucosylated structures compared to later in lactation. We also found a gradual increase in the expression of the carbohydrate epitope Lewis x on BSSL throughout the lactation period. This study shows that glycosylation of BSSL is dependent on blood group phenotype of the donor and changes substantially during the lactation period.

Analysis of agalacto-IgG in rheumatoid arthritis using surface plasmon resonance.

It is well established that IgG from rheumatoid arthritis (RA) patients are less galactosylated than IgG from normal individuals. Determination of agalacto-IgG may therefore aid in diagnosis and treatment of RA. The decrease in galactosylation of IgG leads to an increase in terminal N-acetylglucosamine residues, which can be detected using a specific lectin from Psathyrella velutina. In the present study IgG from RA and control serum was purified using affinity chromatography. The samples were then, after reduction, analyzed on a BIOCORE 2000 system with immobilized Psathyrella velutina lectin. Using this technique it was possible to discriminate between IgG from RA patients and IgG from control individuals with respect to its content of IgG with terminal N-acetylglucosamine. The affinity biosensor technique makes it possible to detect binding without labeling or using secondary antibodies.

Evaluation of the carbon 13-labeled Ketoisocaproate breath test to assess mitochondrial dysfunction in patients with high alcohol consumption.

There are few functional tests for liver function that selectively indicate the toxic effect of alcohol abuse. To explore the long-term impact of excessive alcohol use on the liver, there is a need for such specific analyses. The Ketoisocaproate breath test has been shown to be a specific marker of mitochondrial function in the liver, which is known to be selectively affected by heavy alcohol intake. This method was evaluated by analyzing 13 male patients with severe alcohol dependence and comparing these with 10 healthy volunteers, 5 women and 5 men. All alcoholic patients reported a heavy intake of alcohol during the last month before the test and all had some form of abnormal liver status as assessed by traditional markers such as aspartate aminotransferase, alanine aminotransferase, or gamma-glutamyltransferase analyses. The results showed that healthy women had a higher percentage exhalation of 13CO2 than both healthy males and alcoholic males. In contrast to previous studies, we found no significant impairment of Ketoisocaproate decarboxylation as an effect of chronic intake of alcohol or alcohol-induced steatosis. The findings could not be explained completely by concurrent drug intake used in the routine detoxification of the patients. Thus, the value of the Ketoisocaproate breath test as a biological marker of excessive alcohol consumption appears to be limited because of a fast normalization of the values.

Temperature effects in high-performance anion-exchange chromatography of oligosaccharides.

High-performance anion-exchange chromatography (HPAEC) with pulsed amperometric detection has been widely used for analysis of mono-, oligo- and polysaccharides. Many factors that affect separation of carbohydrates by HPAEC have been evaluated, however effect of temperature has not been carefully studied. In the present study, neutral and sialylated oligosaccharides from human milk and different types of N-linked oligosaccharides were analysed by HPAEC at temperatures ranging from 13 to 30 degrees C. N-Acetyl neuraminic acid, Galacturonic acid and stachyose were also analysed since they have been used as internal standards when analysing various oligosaccharides by HPAEC. All oligosaccharides showed decreased retention times with increased temperature. Even small differences (i.e. +/- 5 degrees) resulted in considerable changes in retention times. In addition, individual oligosaccharides showed relative changes in retention time with increased temperature. By changing the temperature, a switch in elution of order of individual oligosaccharides were sometimes found. These results show that retention times relative to an internal standard cannot be used for oligosaccharide identification unless temperature is carefully controlled. Regulation of temperature is also a valuable tool in achieving optimal separation of oligosaccharides by HPAEC.

Use of weak monoclonal antibodies for affinity chromatography.

When using weakly interacting ligands in affinity chromatography, it is possible to take advantage of a true chromatographic process in the separation, as compared with traditional affinity chromatography which is rather an on/off process. In this work, weak monoclonal antibodies were immobilized on a silica and a perfusion-type support (POROS AL) and used for high-performance liquid affinity chromatography (HPLAC). Similar carbohydrate antigens were separated under isocratic conditions according to their weak interaction with the immobilized monoclonal antibody. The affinity of the antibodies was adjusted with temperature and pH to modify the separation. The productivity of the chromatographic system was increased with the immobilized perfusion support but at the expense of loss of plate numbers. This study clearly demonstrates the potential of weak affinity biological interactions as a basis for chromatographic separation.

Detection of low-molecular-weight heparin oligosaccharides (Fragmin) using surface plasmon resonance.

During the last decades there has been a growing realization of the central biological role that oligosaccharides and oligosaccharide-protein interactions play. One of the most striking examples is the use of heparin and low-molecular-weight heparin oligosaccharides (Fragmin) to modify blood coagulation. Several monoclonal antibodies directed against glycosaminoglycan structures have been produced. However, their clinical use is limited by the difficulty of detection systems for oligosaccharides. In the present study we used a monoclonal antibody directed against heparin oligosaccharides prepared by partial nitrous acid deamination of heparin. Using a biosensor (BIAcore), purified antibody was immobilized on sensor surfaces and binding of oligosaccharide was measured by surface plasmon resonance. Using this technique, it was possible to quantitate low-molecular-weight heparin oligosaccharides in nanomolar concentrations.

Interferon-gamma enhancement of E-selectin expression on endothelial cells is inhibited by monensin.

The expression of E-selectin reaches a maximum 4-6 h after stimulation of human umbilical vein endothelial cells (HUVEC) in vitro with tumour necrosis factor-alpha (TNF-alpha) and then declines to basal level within 24 h. If interferon-gamma (IFN-gamma) is added to the cell culture medium together with TNF-alpha the surface expression of E-selectin is augmented and prolonged in a synergistic way. The aim of the present study was to investigate if altered protein glycosylation could explain the IFN-gamma induced persistent surface expression of E-selectin. SDS-PAGE analysis of HUVEC glycoproteins, metabolically radiolabelled in the carbohydrate portion, indicated that addition of IFN-gamma produced an altered protein glycosylation. Lectin blot analysis using the Sambucus nigra agglutinin lectin also indicated differences in protein glycosylation when HUVEC were incubated with IFN-gamma/TNF-alpha compared to TNF-alpha alone. The kinetics of surface expression of E-selectin were measured using a cell ELISA assay. When HUVEC were incubated with monesin, a potent inhibitor of late Golgi function, together with both TNF-alpha and IFN-gamma, the additive effect of IFN-gamma on E-selectin expression was almost abolished. Since monensin is known to affect glycosylation processing, this experiment suggested that the IFN-gamma induced change in protein glycosylation might induce the prolonged surface expression of E-selectin. However, when HUVEC were cultured with IFN-gamma/TNF-alpha in the presence of several different inhibitors of N-glycosylation processing, no significant effect of E-selectin expression was observed. Regulation of adhesion molecule expression after activation of endothelial cells is likely to play a pivotal role for the inflammatory response. Further studies are needed to understand the mechanisms underlying this regulation.

Glycosylation of bile-salt-stimulated lipase from human milk: comparison of native and recombinant forms.

Bile-salt-stimulated lipase (BSSL) is an enzyme present in human milk. BSSL is important for fat digestion in infants. It contains one site for N-glycosylation and a serine/threonine-rich domain which is highly O-glycosylated. Both N- and O-linked sugar chains were studied on native BSSL from three donors and compared to the glycosylation of recombinant BSSL produced in Chinese hamster ovary or mouse fibroblast (C-127) cell lines. The carbohydrate composition of oligosaccharides was mapped using sugar and methylation analyses, enzyme-linked immunosorbant assay, and different separation techniques. Native BSSL was found to be highly glycosylated (19-26%). It contained a high amount of fucosylated oligosaccharides and expressed both Lewis a and Lewis b blood group antigens. None of the recombinant BSSL forms contained fucose. N-linked structures on native BSSL were identified as mainly mono- and disialylated biantennary complex type structures with or without fucose substitution. High-pH anion-exchange chromatography analysis indicated that the recombinant forms of BSSL contained similar types of N-glycan structures differing mainly in their content of sialic acid and by the absence of fucose residues. Native BSSL contained predominantly large O-linked oligosaccharides. This was in contrast to the recombinant forms of BSSL which contained mainly short type O-glycans with a high content of sialic acid. Interestingly, the estimated number of O-glycans attached to native BSSL was lower than that for the recombinant forms.

Glycosylation of alpha1-acid glycoprotein in inflammatory disease: analysis by high-pH anion-exchange chromatography and concanavalin A crossed affinity immunoelectrophoresis.

High-pH anion-exchange chromatography with pulsed amperometric detection is a highly sensitive technique that can be used for detecting changes in sialylation and fucosylation, as well as different branching patterns of N-linked oligosaccharides in glycoproteins. We examined the N-glycans of alpha1-acid glycoprotein obtained from twelve patients with various inflammatory conditions with this technique, as well as traditional concanavalin A crossed affinity immunoelectrophoresis. We found the chromatographic profiles of N-glycans in all patients with rheumatoid arthritis to be very similar, but significantly different from normal controls. N-glycans from patients with ulcerative colitis also showed specific alterations in their chromatographic profiles. However, some heterogeneity was found between these patients, perhaps reflecting changes in glycosylation secondary to certain states of the disease, or to medical treatment. We conclude that this technique is useful for detailed mapping of glycosylation changes in alpha1-acid glycoprotein in clinical samples, and that it may be used to further increase our knowledge about glycosylation changes in response to inflammatory disease.

Use of monoclonal antibodies for weak affinity chromatography.

Weak monoclonal antibodies were used as ligands in a high-performance liquid affinity chromatography system. Isocratic weak affinity chromatography was achieved when similar carbohydrate antigens were separated according to their weak binding to the immobilized monoclonal antibody. These chromatographic systems were studied in detail in terms of affinity, specificity and efficiency. The influence of the physico-chemical factors of temperature, pH, ionic strength and organic solvents was also evaluated. The issue of specificity was specially considered, as non-specific interactions are prevalent and usually of a weak affinity nature. This study clearly demonstrates the potential to use weak affinity biological interactions as the basis of chromatographic analysis and separation.

E-selectin: sialyl Lewis, a dependent adhesion of colon cancer cells, is inhibited differently by antibodies against E-selectin ligands.

Recent studies have demonstrated that selectins, a new family of cell-adhesion molecules with similar domain structures, mediate the adhesion of peripheral blood cells to interleukin-1 (IL-1)-activated endothelium. In the present study the authors evaluated the role of E-selectin-Sialyl Lewis x (SLe(x))/ Sialyl Lewis a (SLe(a)) interaction in mediating in vitro adhesion of two colon cancer cell lines, HT-29 and COLO 201, to human umbilical cord endothelial cells (HUVEC). Colon cancer cell lines had a strong expression of blood group-related carbohydrate epitopes as evaluated by fluorescence-activated cell sorter (FACS) analysis. It was established that adhesion of HT-29 and COLO 201 cells to IL-1 stimulated HUVEC was calcium dependent and could be inhibited by a monoclonal antibody directed against E-selectin. Prior incubation of cells with two different antibodies directed against SLe(x) and antibodies directed against related Lewis epitopes, Le(x) and Le(a), had no significant effect on adhesion. Three antibodies directed against SLe(a) differed in their capacity to inhibit the adhesion of HT-29 and COLO 201 cells to HUVEC. Only one antibody directed against the SLe(a) structure was effective in inhibiting adhesion of both COLO 201 and HT-29 cells. The difference could not be attributed to titre, the type or number of glycoproteins, or to a difference in the amount of SLe(a) present on individual proteins, suggesting that presence and right presentation of SLe(a) epitope might be important for adhesion of colon cancer cells. Finally, in the in vitro system used, adhesion of HT-29 and COLO 201 cells to activated HUVEC is mediated predominantly by E-selectin/SLe(a) interaction. SLe(x) and related epitopes, Le(x) and Le(a), seem to have limited relevance for colon cancer cell recognition of E-selectin.

The role of glycosylation in synthesis and secretion of beta-amyloid precursor protein by Chinese hamster ovary cells.

Alzheimer's disease is characterized by beta-amyloid deposition in the brain. This peptide is derived by proteolytic cleavage from beta-amyloid precursor protein (APP), a highly glycosylated membrane glycoprotein containing both N- and O-glycans. There are three major isoforms of APP, which are derived by alternative splicing and contain 695, 751, or 770 amino acids. Since glycosylation can affect many properties of glycoproteins, we studied the role of N- and O-glycosylation in the synthesis and secretion of APP. APP expression was examined in untransfected wild-type, Lec-8 mutant, and ldlD mutant Chinese hamster ovary (CHO) cells and in analogous clonal cell lines expressing either the transfected human wild-type 695-amino-acid form of APP (APP695-WT) or a form mutated to delete N-glycosylation sites (APP695-XX). These studies showed that maturation of APP in CHO cells is accompanied by the addition of multiple short O-glycans with the following structures: Neu5Acalpha2-3Galbeta1-3GalNAc, Neu5Acalpha2-3Galbeta1-3[Neu5Acalpha2-6]GalNAc, and GalNAc. Using glycosylation-defective mutant CHO cell lines and soluble inhibitors of glycosylation, we found that APP secretion was diminished when core N-glycosylation or N-glycan processing was blocked. Surprisingly, similar results were found when synthesis and secretion of either APP695-WT or APP695-XX were analyzed. These results indicate that defective N-glycosylation of other cellular proteins, but not of APP itself, affects the metabolism of APP. Interestingly, inhibition of O-glycosylation did not affect the biosynthesis or secretion of APP. The results of these studies may shed some light on the role that protein glycosylation may play in the pathogenesis of Alzheimer's disease.

Role of N-linked glycosylation in expression of E-selectin on human endothelial cells.

E-selectin is a cytokine-inducible membrane glycoprotein capable of mediating adhesion of leukocytes to endothelial cells. It is highly glycosylated, containing 11 sites for N-linked glycosylation. N-Glycosylation of E-selectin was analyzed by endoglycosidase treatment. Analysis of immunoprecipitated E-selectin from human umbilical vein endothelial cells (HUVEC) by polyacrylamide gel electrophoresis in the presence of sodium dodecylsulfate showed that E-selectin was completely resistant to endoglycosidase H, but sensitive to peptide N-glycanase F digestion. This suggested that all N-linked oligosaccharide chains were of the complex type. The role of N-linked glycosylation in surface expression and secretion of E-selectin was studied using interleukin-1-stimulated HUVEC, cultured in the presence of the soluble glycosylation inhibitors tunicamycin or castanospermine. Cell surface expression was analyzed by indirect flow cytometry. N-Glycosylation was blocked by tunicamycin, and resulted in a significantly reduced surface expression of E-selectin, whereas castanospermine only marginally reduced E-selectin expression. The deglycosylated forms of E-selectin were also found to be fully capable of mediating adhesion of HT-29 cells in vitro. In conclusion, these studies show that E-selectin is heavily glycosylated with complex type N-linked oligosaccharides and that N-glycosylation is important for expression of E-selectin on human endothelial cells.

Carbohydrate composition of serum transferrin isoforms from patients with high alcohol consumption.

Normal human serum transferrin is present in several isoforms, due to differences in glycosylation. Transferrin has two potential glycosylation sites, both normally occupied by oligosaccharide chains. Two of the transferrin isoforms, called carbohydrate deficient transferrin, are specifically increased in patients with high alcohol consumption. In this study, five isoforms of transferrin were isolated from patients with high alcohol consumption. N-linked glycans were released by N-glycosidase digestion and were radioactively labeled by NaB3H4 reduction. The purified oligosaccharides were analyzed by high-pH anion-exchange chromatography, and the carbohydrate composition of each individual transferrin isoform was determined. The carbohydrate deficient transferrin isoforms were found to lack one or both of their entire carbohydrate chains.