Helicobacter pylori infection can change the intensity of gastric Lewis antigen expressions differently between adults and children

This study tested whether there were different expressions of gastric Lewis antigens between children and adults with Helicobacter pylori infection, and whether the difference was related to the infection outcome. About 68 dyspeptic children and 110 dyspeptic adults were enrolled to check H. pylori infection, its colonization density, and the related histology. Gastric Lewis antigens b (Le^b), x (Le^x), and sialyl-Lewis x (sialyl-Le^x) were immunohistochemically stained and scored for the intensity. The H. pylori-infected adults, but not the children, had a lower Le^b intensity over the antrum (p = 0.019) but higher Le^b intensity over the corpus (p = 0.001) than the non-infected ones. Over the antrum, both the H. pylori-infected children and adults had a lower Le^x and higher sialyl-Le^x intensity than those non-infected ones (p < 0.05). The H. pylori-infected adults had a higher bacterial density (p = 0.004) and Le^b intensity (p = 0.016) over the corpus than the H. pylori-infected children. For the H. pylori-infected adults, but not children, the corpus had a higher Le^b (p = 0.038) and lower Le^x (p = 0.005) intensity than the antrum. Furthermore, the H. pylori-infected adults expressed a higher Le^b and had a higher bacterial density than those with weak Le^b (antrum, p < 0.001; corpus, p = 0.001). In conclusion, H. pylori infection is associated with the intensity change of Lewis antigen expressions in the stomach. The changes of gastric Lewis antigen expressions are different between adults and children with H. pylori infection, which may exert different H. pylori colonization over the corpus between adults and children.     

A Role for Lewis a antigens on salivary agglutinin in binding to Streptococcus mutans

Streptococcus mutans is a major etiological agent in dental caries. Salivary agglutinin is one of the main salivary components binding to S.mutans. To learn more about the interaction of salivary agglutinin with S.mutans, parotid, submandibular, sublingual and palatal saliva samples were incubated with S. mutans suspension. Both depleted saliva samples and bacterial extracts were analyzed by SDS-PAGE and immunoblotting. Salivary agglutinin was present in all types of glandular saliva and in all cases bound to S.mutans, also to PC337C, a P1^– mutant of S.mutans. Agglutinin was separated by SDS-PAGE under reducing and non-reducing conditions and then transferred to nitrocellulose. Non-reduced agglutinin bound S.mutans, but reduced agglutinin did not. Adhesion of S.mutans to agglutinin-coated microplates was inhibited by amine-containing components, 1 M NaCl or KCl and EDTA. Adhesion decreased with decreasing pH with no adhesion below pH 5.0. These data suggest that calcium-dependent electrostatic interactions play a role in binding. By immunoblotting was demonstrated that blood group antigens and Lewis antigens were present on agglutinin. Synthetic blood group antigens and Lewis antigens covalently coupled to polyacrylamide were tested for binding to S.mutans. Only Le^a(Gal1,3(Fuc1,4)GlcNAc) bound to S.mutans, whereas the blood group antigens Le^b, Le^x, Le^y, H1, H2, A, B and sialylated Le^a did not. Le^a without galactose (Fuc1,4GlcNAc) still bound to S. mutans, but Le^a without fucose (Gal1,3GlcNAc) did not. Binding of agglutinin to S. mutans was not inhibited by Le^a. In conclusion, S. mutans can bind to Le^a carbohydrate epitopes in which the fucose is an essential residue. Le^a carbohydrate epitopes are present on salivary agglutinin but play no major role in binding.     

Expression of sialyl Le, sialyl Le, Le and Le glycotopes in secreted human ovarian cyst glycoproteins

Human blood group A, B, H, Ii, Le^a and Le^b antigens and their determinants expressed on ovarian cyst glycoproteins have been studied for over five decades. However, little is known about sialyl Le^x and sialyl Le^a glycotopes, which play essential roles in normal immunity, inflammation, and cancer cell metastasis. Furthermore, Le^x and Le^y were classified as glycotopes of unknown genes. Identification of these Lewis epitopes was hampered by the lack of specific antibodies. In this study, the occurrence of sialyl Le^x, sialyl Le^a, Le^x and Le^y reactivities in cyst glycoproteins was characterized by enzyme-linked immunosorbent assays. The results indicated that most human ovarian cyst glycoproteins carried Le^x (8/25) and/or Le^y (17/25) glycotopes. The expression (epitopes) of the new genes described in previous reports are Le^x and Le^y glycotopes; the reactivities of sialyl Le^x and sialyl Le^a glycotopes in secreted cyst glycoproteins may be affected by the conditions of purification; the relationship between Le^y and human blood group ABH was confirmed; recognition profiles of sialyl Le^x, sialyl Le^a, Le^x and Le^y present in the carbohydrate chains of water-soluble cyst glycoproteins were illustrated; possible attachments of glycotopes to the internal carbohydrate complex of cyst glycoproteins have been reconstructed; proposed biosynthetic pathways for the formation of sialyl Le^a, sialyl Le^x, Le^x, Le^y, ALe^y and BLe^y determinant structures on Type I and Type II core structures of human ovarian cyst glycoproteins are also included in this study.     

Traveling for the glycosphingolipid path

Our studies on glycosphingolipids (GSLs) were initiated through isolation and structural characterization of lacto-series type 1 and 2 GSLs, and globo-series GSLs. Lacto-series structures included histo-blood group ABH and I/i antigens. Our subsequent studies were focused on GSL changes associated with: (i) ontogenic development and differentiation; (ii) oncogenic transformation and tumor progression. Various novel types of GSLs such as extended globo-series, sialyl-Le^x (SLe^x), sialyl-dimeric-Le^x (SLe^x-Le^x), dimeric-Le^x (Le^x-Le^x), Le^y-on-Le^x, dimeric-Le^a (Le^a-Le^a), Le^b-on-Le^a, etc. were identified as tumor-associated antigens. These studies provide an essential basis for up- or down-regulation of key glycosyltransferase genes controlling development, differentiation, and oncogenesis. GSL structures established in our laboratory are summarized in Table 1, and structural changes of GSLs associated with ontogenesis and oncogenesis are summarized in Sections 2 and 3.Based on these results, we endeavored to find out the cell biological significance of GSL changes, focused on (i) cell adhesion, e.g., the compaction process of preimplantation embryo in which Le^x-to-Le^x, Gb4-to-GalGb4 or -nLc₄ play major roles; and (ii) modulation of signal transduction through interaction of growth factor receptor tyrosine kinase with ganglioside, e.g., EGF receptor tyrosine kinase with GM3. Recent trends of studies on i and ii lead to the concept that GSL clusters (microdomains) are organized with various signal transducer molecules to form glycosignaling domains (GSD). GSL-dependent adhesion occurs through clustered GSLs, and is coupled with activation of signal transducers (cSrc, Src family kinase, Rho A, etc.). Clustered GSLs involved in cell adhesion are recognized by GSLs on counterpart cells (carbohydrate-to-carbohydrate interaction), or by lectins (e.g., siglecs, selectins).Our major effort in utilization of GSLs in medical science has been for: (i) cancer diagnosis and treatment (vaccine development) based on tumor-associated GSLs and glycoepitopes; (ii) genetically defined phenotype for susceptibility to E. coli infection; (iii) clear identification of physiological E-selectin epitope (myeloglycan) expressed on neutrophils and myelocytes; (iv) characterization of sialyl poly-LacNAc epitopes recognized as male-specific antigens. Utilization of these GSLs or glycoepitopes in development of anti-adhesion approach to prevent tumor metastasis, infection, inflammation, or fertilization (i.e., contraceptive) is discussed. For each approach, development of mimetics of key GSLs or glycoepitopes is an important subject of future study.     

Role of Mucin Lewis Status in Resistance to Helicobacter pylori Infection in Pediatric Patients

Background: Helicobacter pylori causes gastritis, peptic ulcer and is a risk factor for adenocarcinoma and lymphoma of the stomach. Gastric mucins, carrying highly diverse carbohydrate structures, present functional binding sites for H. pylori and may play a role in pathogenesis. However, little information is available regarding gastric mucin in children with and without stomach diseases. Materials and Methods: Expression of mucins and glycosylation was studied by immunohistochemistry on gastric biopsies from 51 children with and without H. pylori infection and/or peptic ulcer disease. Results: In all children, MUC5AC was present in the surface epithelium and MUC6 in the glands. No MUC6 in the surface epithelium or MUC2 was detected in any section. The Le^b and Le^a blood group antigens were present in the surface epithelium of 80% and 29% of children, respectively. H. pylori load was higher in Le^b negative children than in Le^b positive individuals (mean ± SEM 17.8 ± 3.5 vs 10.8 ± 1.5; p < 0.05), but there was no correlation between Le^a or Le^b status and gastritis, nodularity, and gastric or duodenal ulcer (DU). Expression of sialyl‐Le^x was associated with H. pylori infection, and DU. Conclusions: Mucin expression and glycosylation is similar in children and adults. However, in contrast to adults, pediatric H. pylori infection is not accompanied by aberrant expression of MUC6 or MUC2. Furthermore, the lower H. pylori density in Le^b positive children indicates that H. pylori is suppressed in the presence of gastric mucins decorated with Le^b, the binding site of the H. pylori BabA adhesin.     

Differentiation of isomeric Lewis blood groups by positive ion electrospray tandem mass spectrometry

Lewis histo-blood group antigens are one of the major classes of biologically active oligosaccharides. In this work, underivatized Lewis blood groups were studied by electrospray tandem mass spectrometry (ESI-MSⁿ) in the positive mode with three different mass analyzers: Q-TOF (quadrupole time-of-flight), QqQ (triple quadrupole), and LIT (linear ion trap). It was observed that, under collision-induced fragmentations, type 1 Lewis antigens (Le^a and Le^b) could be distinguished from type 2 (Le^x and Le^y) on the basis of specific fragmentations of the GlcNAc unit. Whereas O-4-linked sugars of the GlcNAc are lost as residues, the O-3-linked sugars undergo fragmentation both as sugar units and as sugar residues (unit −18 Da). Type 2 Lewis antigens also showed a characteristic cross-ring cleavage ^0,2A₂ of the GlcNAc. As a result, the product ions at m/z 388 and 305, characteristic of Le^x, and m/z 372, characteristic of Le^a, are proposed to distinguish the trisaccharide isomers Le^x/Le^a. Also, the product ions at m/z 534 and 305, characteristic of Le^y, and m/z 372, characteristic of Le^b, are proposed to distinguish the tetrasaccharide isomers Le^b/Le^y. These diagnostic fragment ions were further applied in the identification of Lewis type 2 antigens (Le^x and Le^y) in the lipopolysaccharide of the human gastric pathogen, Helicobacter pylori.     

Species-specific expression of sialosyl-Lex on polymorphonuclear leukocytes (PMN), in relation to selectin-dependent PMN responses

Sialosyl-Le^x (SLe^x) and its positional isomer sialosyl-Le^a are the epitopes recognized by the lectin domain of E- and P-selectins. Expression of SLe^x in polymorphonuclear leukocytes (PMN) plays an important role in recruitment of these cells at sites of inflammation through activation of selectins. We studied expression of SLe^x in PMN of seven mammalian species in comparison with that in humans. Only PMN of humans (no other species) expressed SLe^x or other lacto-series epitopes such as Le^x or Le^y. The observed absence of these epitopes in rat PMN seems inconsistent with recent reports that the lung inflammation process in a rat model is inhibited by perfusion of SLe^x oligosaccharide (Mulligan MS,et al. (1993a)Nature 364:149; (1993b)J Exp Med 178:623). Rat selectins may be able to recognize SLe^x, even though this epitope is absent in rat PMN.Abbreviations FITC fluorescein isothiocyanate - mAb monoclonal antibody - PMN polymorphonuclear leukocytes - SLe^a sialosyl-Le^a antigen - SLe^x sialosyl-Le^x antigen     

Sialyl-Lex and sulfo-sialyl-Lex determinants are receptors for P. aeruginosa

Pseudomonas aeruginosa, the main pathogen in the airways of patients suffering from cystic fibrosis (CF), binds to carbohydrate chains of respiratory mucins. Using flow cytometry and polyacrylamide based fluorescent glycoconjugates, it was previously demonstrated that several strains of P. aeruginosa recognize a set of neutral and acidic carbohydrate epitopes found at the periphery of respiratory mucins, especially sialyl-Le^x. This structure, overexpressed in mucins from CF patients, could be responsible in part for the persistence of lung infection in CF patients. The aim of the present work was to determine whether a glycoconjugate bearing the 6-sulfo-sialyl-Le^x epitope, also found in abundance in CF airway mucins, is also preferentially recognised by different strains of P. aeruginosa. The study was conducted with a non-piliated strain 1244-NP and four mucoid strains isolated from CF patients. For four strains out of five, the affinity for 6-sulfo-sialyl-Le^x was as high as for sialyl-Le^x derivative. These results were confirmed for strain 1244-NP by a microtiter plate assay.     

Interaction of Perch Fucolectin with Lewis Antigens

The interaction of fucolectin of perch Perca fluviatilis (PFL) with a set of Lewis antigens was studied by monitoring changes in its tryptophan fluorescence. PFL bound Le^c (H type 1)-pentasaccharide (K _a = 6.6 × 10^{3 –1}) and H type 6-trisaccharide (K _a = 2.5 × 10^{3 –1}); bound, although less strongly, with Le^b-hexasaccharide (K _a = 4.0 × 10^{2 –1}); and failed to interact with Le^a-, Le^x-, and Le^d-containing oligosaccharides. PFL belongs to a new type of the fucolectins recognizing H-disaccharide Fuc1-2Gal within various antigens, including H type 1/2 and Le^b.     

Immunochemical and immunohistological expression of Lewis histo-blood group antigens in small intestine including individuals of the Le(a+b+) and Le(a−b−) nonsecretor phenotypes

Histological samples and total non-acid glycosphingolipids were prepared from small intestine of human cadavers with the Le(a+b+) and Le(a–b–) nonsecretor phenotypes and contrasted with the more common Lewis phenotypes. Glycolipid fractions were analysed by thin-layer chromatography and tested for Lewis activity with monoclonal antibodies reactive to Lewis epitopes. Paraffin-embedded small intestine sections were also fluorescently immunostained with anti-Lewis antibodies. Unlike the common Lewis positive phenotypes, we were immunochemically able to demonstrate the copresence of large amounts of Le^a and Le^b glycolipids in the Le(a+b+) sample. In addition we demonstrated increased formation of extended Lewis structures in this phenotype. By immunohistochemistry Le^a, Le^b and type 1 precursor chain epitopes could be demonstrated in the brush border. These results show that the expression of the Le(a+b+) phenotype at the erythrocyte phenotyping level parallels the small intestinal expression of this phenotype, and the patterns of Lewis antigen expressions are unique to this phenotype. By immunohistochemistry and immunochemistry we also demonstrated the presence of trace amounts of Lewis active glycoconjugates in the small intestine of the Le(a–b–) nonsecretor and Le(a+b–) samples. In the Le(a–b–) nonsecretor Le^a and Le^b activity was absent and type 1 precursor was present in brush border, while Le^b activity was immunohistologically demonstrated in the Golgi apparatus of the deep glands. Trace amounts of both Le^a and Le^b glycolipids were identified in this sample. In parallel trace Le^b activity could also be detected in the glycolipids of the Le(a+b–) sample and could be immunohistologically demonstrated to be fully expressed in occasional cells in the deep glands of the small intestine, a pattern quite dissimilar to that of the Le(a–b–) nonsecretor. The results in this paper show that the expression of Lewis glycoconjugates in the small intestine parallel the expression of Lewis erythrocyte phenotypes. However, inappropriate Lewis activity is also seen in individuals of other phenotypes and the mechanisms by which these Lewis antigens are made appears to be different for different phenotypes.Abbreviations FITC fluorescein isothiocyanate - HPLC high-performance liquid chromatography - NeuAc N-acetyl-d-neuraminic acid - RBC red blood cell - TLC thin-layer chromatography - TRITC tetramethyl rhodamine isothiocyanate     

Le(X) and related structures as adhesion molecules.

Summary and conclusion Le^x (13 fucosylated type 2 chain) functions as an adhesion molecule capable of Ca²⁺-mediated homotypic binding. Cells with high surface expression of Le^x therefore exhibit strong self-aggregation (based on Le^x-Le^x interaction) in the presence of Ca²⁺. In this review, I have summarized several lines of supporting data for this concept, and the role of Le^x-Le^x interaction in the process of embryo compaction and autoaggregation of F9 teratocarcinoma cells. In general, cell adhesion events based on Le^x-Le^x interaction may be followed and reinforced by integrin- or Ig receptor-based adhesion systems.SLe^x, the 23 sialosyl derivative of Le^x, and its positional isomer SLe^a, have been identified as the target molecules for selectin-dependent cell adhesion. Adhesion of leukocytes or tumour cells to ECs or platelets, which express E-selectin and P-selectin respectively, is initiated by this process. The target epitopes SLe^x and SLe^a are presented mainly on transmembrane glycoproteins having many clusters of O-linked carbohydrate chains. Therefore, inhibition of O-glycosylation may be effective for blocking selectin-mediated cell adhesion. The abundant presence of Le^x epitope in the central nervous system, and the physiological changes of Le^x expression as described in this monograph, reflect the adhesive properties of this molecule and its sialyosylated and/or fucosylated derivatives.     

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.     

Red cell H-deficient,salivary ABH secretor phenotype of Reunion island. Genetic control of the expression of H antigen in the skin

Based on the genetic model proposing thatH andSe are two structural genes, we predicted that the red cell H-deficient, salivary ABH secretor phenotype should be found on Reunion island, where a large series of H-deficient non-secretor families have been previously described. Two such Reunion individuals are now reported. POU [A_h, Le(a–b+), secretor of A, H, Le^a and Le^b in saliva] and SOU [O_h, Le(a–b+), secretor of H, Le^a and Le^b in saliva]. Both are devoid of H -2-fucosyltransferase activity in serum. In addition, the preparation of total non-acid glycosphingolipids from plasma and red cells of POU revealed the type 1ALe^b heptaglycosylceramide and small amounts of the monofucosylated type 1 A hexaglycosylceramide. Both glycolipids possess an H structure probably synthesised by the product of theSe gene. No other blood group A glycolipids, with types 2, 3 or 4 chains, normally present in the presence of the product of theH gene, were found on red cells or plasma of POU.TheH,Se andLe genetic control of the expression of ABH and related antigens in different tissue structures of the skin is described in 54 H-normal individuals of known ABO, secretor and Lewis phenotypes; in one red cell H-deficient salivary secretor (SOU); and in one H-deficient non-secretor (FRA). Sweat glands express ABH under the control of theSe gene. Sweat ducts express ABH under the control of bothH andSe genes and Lewis antigens under the control ofLe and bothH andSe genes. Epidermis, vascular endothelium and red cells express ABH under the control of theH gene. The products ofH andSe genes are usually expressed in different cells. However, the results illustrate that in some structures, like the epithelial cells of sweat ducts, both the products ofH andSe genes can contribute to the synthesis of the same Le^b structure.     

Expression and localization of Lewisx glycolipids and GD1a ganglioside in human glioma cells

We analysed the glycolipid composition of glioma cells (N-370 FG cells), which are derived from a culture of transformed human fetal glial cells. The neutral and acidic glycolipid fractions were isolated by column chromatography on DEAE-Sephadex and analysed by high-performance thin-layer chromatography (HPTLC). The neutral glycolipid fraction contained 1.6 µg of lipid-bound glucose/galactose per mg protein and consisted of GlcCer (11.4% of total neutral glycolipids), GalCer (21.5%), LacCer (21.4%), Gb4 (21.1%), and three unknown neutral glycolipids (23%). These unknown glycolipids were characterized as Lewis^x (fucosylneolactonorpentaosyl ceramide; Le^x), difucosylneolactonorhexaosyl ceramide (dimeric Le^x), and neolactonorhexaosyl ceramide (nLc6) by an HPTLC-overlay method for glycolipids using specific mouse anti-glycolipid antibodies against glycolipid and/or liquid-secondary ion (LSI) mass spectrometry. The ganglioside fraction contained 0.6 µg of lipid-bound sialic acid per mg protein with GD1a as the predominant ganglioside species (83% of the total gangliosides) and GM3, GM2, and GM1 as minor components. Trace amounts of sialyl-Le^x and the complex type of sialyl-Le^x derivatives were also present. Immunocytochemical studies revealed that GD1a and GalCer were primarily localized on the surface of cell bodies. Interestingly, Le^x glycolipids and sialyl-Le^x were localized not only on the cell bodies but also on short cell processes. Especially, sialyl-Le^x glycolipid was located on the tip of fine cellular processes. The unique localization of the Le^x glycolipids suggests that they may be involved in cellular differentiation and initiation of cellular growth in this cell line.     

Variant size- and glycoforms of the scavenger receptor cysteine-rich protein gp-340 with differential bacterial aggregation

Glycoprotein gp-340 aggregates bacteria in saliva as part of innate defence at mucosal surfaces. We have detected size- and glycoforms of gp-340 between human saliva samples (n = 7) and lung gp-340 from a proteinosis patient using antibodies and lectins in Western blots and ELISA measurements. Western blots of saliva samples, and of gp-340 purified, from the seven donors using a gp-340 specific antibody distinguished four gp-340 size variants, designated I to IV (n = 2,2,2 and 1). While saliva gp-340 variants I to III had single bands of increasing sizes, variant IV and lung gp-340 had double bands. Purified I to IV proteins all revealed a N-terminal sequence TGGWIP upon Edman degradation. Moreover, purified gp-340 from the seven donors and lung gp-340 shared N-glycans, sialylated Galβ1-3GalNAc and (poly)lactosamine structures. However, the larger size gp-340 grouping II/III (n = 4) and smaller size grouping I/IV correlated with a secretor, Se(+), and a non secretor, Se(−), dependent glycoform of gp-340, respectively (p = 0.03). The Se(+) glycoforms contained ABH, Le^b, Le^y and polylactosamine structures, while the Se(−) glycoforms lacked ABH antigens but expressed Le^a, Le^x and lactosamine structures. By contrast, lung gp-340 completely lacked ABH, Le^a/b, Le^x/y or sLe^x structures. Gp-340 and secretor typing of saliva from additional donors (n = 29) showed gp-340 glycoforms I to IV for 6, 16, 4 and 0 donors, respectively, and 3 non-typeable donors, and verified that gp-340 glycoforms I and II/III correlate with Se(−) and Se(+) phenotypes, respectively (p < 0.0001). The glycoforms of saliva and lung gp-340 mediated differential aggregation of Le^b- (Helicobacter pylori), sialylpolylactosamine- (Streptococcus suis) or sialic acid- (Streptococcus mutans) binding bacteria. In conclusion, variant size- and glycoforms of gp-340 are expressed by different individuals and may modulate the biological properties of gp-340 pertinent to health and disease.     

Cell-cell interactions influence oligosaccharide modifications on mucins and other large glycoproteins

Intratumoral phenotypic diversity is well documented with regard to tumor associated carbohydrate antigens (TACA). The factors which control the expression of these cell-surface oligosaccharides on different cells of the same tumor are not understood. We investigated the expression of a panel of mucin associated oligosaccharides in cell lines growing at different surface densities (number of cells per cm² of growth flask). Results show that the apparent expression of extended Le^a-Le^x, Le^a and Le^x, sialyl Le^a, Tn and sialyl Tn varies with density of growth by an invasive human squamous cell lung carcinoma cell line (NU6-1), a benign variant (NE-18) and the human lung epithelial cell line BEAS-2B. The results indicate that one of the factors influencing the apparent expression of mucin-associated oligosaccharides is cell-cell interactions.Abbreviations Mab monoclonal antibody - FIT fluorescein isothiocyanate - TACA tumor associated carbohydrate antigen     

Purification and immunochemical characterization of ascitic fluid glycoproteins containing certain tumor-associated and blood group antigen markers

Ascitic fluids from patients with various types of cancer were screened for the CA 19-9 and CA 125 tumor-associated antigenic activities. Two fluids exhibiting the highest activities were tested for their binding to various lectin-Sepharose columns resulting in both being bound best to wheat germ agglutinin (WGA) Sepharose. The WGA column eluate of one fluid was further chromatographed by HPLC and three peaks were obtained with approximate molecular weights of 3.65 MDa, 664 kDa and 330 kDa, of which only the largest fraction contained the CA 19-9 activity. The fluids were also fractionated on a Sephacryl S-400 column with most of the activity being present in or near the void volume.Monoclonal antibodies were used to demonstrate that the purified glycoproteins also contained the blood group A determinant, the four Lewis determinants Le^a, Le^b, Le^x and Le^y, and the sialylated-Le^x determinant, while other antibody analyses failed to detect other blood group and/or carbohydrate sequence determinants. Some of the blood group expressions could be separated from the CA 19-9 and CA 125 active glycoproteins by adsorption with various lectins other than the WGA.Abbreviations used NeuAc N-acetyl-D-neuraminic acid - Gal galactose,D-galactopyranose - Fuc fucose,L-fucopyranose - GlcNAc N-acetyl-D-glucosamine - GalNAc N-acetyl-D-galactosamine - WGA wheat germ agglutinin - PBS phosphate buffered saline     

<Emphasis Type="Italic">Pseudomonas aeruginosa</Emphasis> mucoid strain 8830 binds glycans containing the sialyl-Lewis x epitope

Pseudomonas aeruginosa infection of patients with cystic fibrosis (CF) is a leading cause of their morbidity and mortality. Pathogenesis is initiated in part by molecular interactions of P. aeruginosa with carbohydrate residues in airway mucins that accumulate in the lungs of patients with this disease. To explore the nature of the glycans recognized by a stable, mucoid, alginate-producing strain P. aeruginosa 8830 we generated a genetically modified Pa8830 expressing green fluorescent protein (Pa3380-GFP). We tested its binding to a panel of glycolipids and neoglycolipids in which selected glycans were covalently attached to dipalmitoyl phosphatidylethanolamine and analyzed on silica gel surfaces. Among all glycans tested, Pa8830-GFP bound best to sialyl-Le^x-containing glycan NeuAc(α2-3)Gal(β1-4)[Fuc(α1-3)]GlcNAc-R and bound weakly to H-type blood group Fucα1-2Galβ1-4GlcNAc-R, sialyl-lactose, and Le^x, and exhibited little binding toward non-fucosylated derivatives. Interestingly, while Pa8830-GFP bound to the glycosphingolipid asialoGM1, it did not appear to bind to a wide variety of other glycosphingolipids including GM1, GM2, asialoGM2, and sulfatide. These results indicate that P. aeruginosa 8830 has preferential binding to sialyl-Le^x-containing glycans and has weak recognition of related fucose- and sialic acid-containing glycans. The finding that Pa8830 binds sialyl-Le^x-containing glycans, which occur at increased levels in mucins from CF patients, is consistent with studies of other strains of P. aeruginosa and further suggests that such glycans on CF mucins contribute to disease pathogenesis. Invited Submission from Dr. Subhash Basu, from the 7th International Symposium on Biochemical Roles of Eukaryotic Cell Surface Macromolecules in Puri, India, January, 2005.     

Identification of capillaries in sections from skeletal muscle by use of lectins and monoclonal antibodies reacting with histo-blood group ABH antigens

This study was performed to evaluate the application of different lectins and monoclonal antibodies against ABH antigens to detect and characterize carbohydrate structures in capillaries of skeletal muscle from humans and laboratory animals. Blood group specific lectins (Griffonia simplicifolia, Griffonia simplicifolia isolectin B4,Lotus tetragonlobus, Ulex europaeus, andDolichos biflorus) and monoclonal antibodies reacting with histo-blood group carbohydrate antigens belonging to type 1 (Le^a) and type 2 (H, A and Le^y) chains were used as histological markers for capillaries in sections from skeletal muscle. The material consisted of 20 human masseter muscle biopsies from individuals with known blood types: (eight blood group O, nine blood group A, two blood group B, and one blood group AB) and masseter muscles specimens from different laboratory animals (mouse, rat, rabbit, cat, dog, pig, cow, and macaca monkey). Unfixed sections and an avidin alkaline phosphatase method were used to visualize the specific reaction.Ulex lectin stained capillaries in all human biopsies either strongly or moderately. Strong muscle capillary reaction was observed in biopsies from O, B and AB individuals while capillaries from A individuals were only moderately stained.Griffonia simplicifolia marked capillaries in A, B, and AB individuals andGriffonia simplicifolia isolectin B4 stained capillaries in muscle biopsies from B and AB donors.Dolichos biflorus was a weak marker of muscle capillaries from A individuals. Only capillaries from O individuals were stained with the antibody against H type 2. Capillary reaction was not observed with the other antibodies used.Girffonia simplicifolia was an excellent marker for capillaries in mouse muscle whileGriffonia simplicifolia isolectin B4 is recommended for rat muscles. Periodic acid treatment and subsequentLotus tetragonolobus staining is suitable to visualize capillaries in mouse, rat and pig muscle. Using a sensitive histochemical technique for staining with lectins and monoclonal antibodies reacting with blood group related antigens the microvascular density in human skeletal muscle may be estimated. Further, the carbohydrate compounds in the muscle capillaries reflect the individual blood type. A selection of lectins is suitable for demonstration of capillaries in animal skeletal muscle.     

Oligosaccharide Specificity of the Fucolectin from the Bark of Laburnum (Laburnum anagyroides)

A comparative study of fine carbohydrate specificity of the lectin from the bark of laburnum Laburnum anagyroides (LABA) and the fucolectin from asparagus pea Tetragonolobus purpureus (TPA) was performed using inhibition of agglutination of the complex formed by H-active neoglycoprotein and nanoparticles of colloidal gold. Both lectins bound most strongly the H type 2 oligosaccharides comprising O-glycans; however, LABA was almost unable to discriminate between them. LABA bound more weakly the H type 6 trisaccharide (Fuc1-2Gal1-4Glc) and difucosyllactose (Fuc1-2Gal1-4[Fuc1-3]Glc), a glucoanalogue of the Le^y antigen, and, even more weakly, the Le^a pentasaccharide lacto-N-fucopentaose II (Gall-3[Fucl-4]GlcNAcl-3Gall-4Glc). However, LABA did not bind the antigens Le^b, Le^c, and Le^d, very poorly interacted with the terminal Le^x, and somewhat more strongly bound the internal Le^x. The lectin also had a hydrophobic binding site. Both lectins exhibited a cluster effect with polymeric ligands (neoglycoproteins).