1,6-Anhydro-N-acetyl-β-D-glucosamine in the oligosaccharide syntheses: I. Synthesis of 3-acetate and 3-benzoate of 1,6-anhydro-N-acetyl-β-D-glucosamine via the 4-O-trityl derivative

3-O-Acetyl and 3-O-benzoyl derivatives of 1,6-anhydro-N-acetyl-β-D-glucosamine were synthesized via its selective tritylation followed by the 3-O-acylation and removal of the trityl protective group. Tritylium trifluoromethanesulfonate, which can easily be prepared by mixing solutions of triphenylcarbinol and trimethylsilyl trifluoromethanesulfonate in an equimolar ratio, was suggested as a reagent for the effective tritylation of a secondary hydroxyl group. This paper is dedicated to the 70th birthday of Prof. A. Ya. Khorlin.     

A novel pentaglycosylceramide in ostrich liver, IV4-beta-Gal-nLc4Cer, with terminal Gal(beta1-4)Gal, a xenoepitope recognized by human natural antibodies

Thin layer chromatograms of ostrich liver neutral glycosphingolipids were immunostained with human sera. In addition to the expected staining of the Forssman pentaglycosylceramide by some sera, more polar and less abundant unknown glycolipids could be stained. Among them, the shortest carbohydrate chain glycolipid was purified and structurally characterized by mass spectrometry, proton NMR and methylation analysis. It was a novel pentaglycosylceramide of the neolactoseries terminated with the Gal(beta1-4)Gal determinant which is not expressed in mammalian species. Human antibodies affinity-purified on a synthetic Gal(beta1-4)Gal(beta1-4)Glc-Sepharose column recognized the newly characterized Gal(beta1-4)Gal-terminated pentaglycosylceramide, and, in addition, longer chain glycolipids. Occurrence of antibodies directed at the Gal(beta1-4)Gal epitope was studied by ELISA on 108 human sera. Anti-Gal(beta1-4)Gal antibodies were predominantly IgM, and their distribution was similar to that of anti-Gal(alpha1-3)Gal and anti-Forssman IgMs. It was concluded that anti-Gal(beta1-4)Gal are natural antibodies, not previously identified in man. They can be considered as xenoantibodies directed at species which express Gal(beta1-4)Gal-terminated carbohydrate chains.     

Synthetic polymeric sialoside inhibitors of influenza virus receptor-binding activity.

Anomeric aminobenzylglycosides of Neu5Ac were coupled with the polyacrylate carrier and a number of synthetic polyvalent sialosides obtained were investigated as inhibitors of influenza virus attachment. The inhibitory activity of polymeric sialosides is highly dependent upon the Neu5Ac residue content and the nature of the carrier. The polyacrylic acid based polymer bearing 10 mol% of Neu5Ac is 3 orders of magnitude more potent inhibitor than the corresponding monovalent benzylsialoside and considerably more active than fetuin.     

Printed glycan array: antibodies as probed in undiluted serum and effects of dilution

Using printed glycan array (PGA) we compared the results of antibody profiling in undiluted, moderately (1:15) and highly (1:100) diluted human blood serum. Undiluted serum is suitable for studying blood as a tissue in its native state, whereas to study the serum of newborns or small animals one usually has to dilute the starting material in order to have sufficient volume for PGA experimentation. The PGA used in this study allows for the use of whole serum without modifications to the protocol, and the background is surprisingly low. Antibodies profiles observed in undiluted serum versus 1:15 dilution were similar, with only a limited number of new signals identified in the undiluted serum. However, unexpected irregularities were found when IgG and IgM are measured separately, namely, at a 1:15 dilution more intensive IgG signals for many glycans are observed. We believe that in conditions of moderate dilution IgG and IgM antibodies can compete with each other for antigen and as a result, the higher affinity anti-glycan IgGs give rise to more intense signals. Therefore depending on the purpose, different dilutions of serum will be optimal: in competitive 1:15 conditions the observed IgG/IgM ratio corresponds to their titer, whereas at 1:100 dilution the measured ratio corresponds to real molar concentration of IgG and IgM.     

Flow-enhanced adhesion regulated by a selectin interdomain hinge

L-selectin requires a threshold shear to enable leukocytes to tether to and roll on vascular surfaces. Transport mechanisms govern flow-enhanced tethering, whereas force governs flow-enhanced rolling by prolonging the lifetimes of L-selectin-ligand complexes (catch bonds). Using selectin crystal structures, molecular dynamics simulations, site-directed mutagenesis, single-molecule force and kinetics experiments, Monte Carlo modeling, and flow chamber adhesion studies, we show that eliminating a hydrogen bond to increase the flexibility of an interdomain hinge in L-selectin reduced the shear threshold for adhesion via two mechanisms. One affects the on-rate by increasing tethering through greater rotational diffusion. The other affects the off-rate by strengthening rolling through augmented catch bonds with longer lifetimes at smaller forces. By forcing open the hinge angle, ligand may slide across its interface with L-selectin to promote rebinding, thereby providing a mechanism for catch bonds. Thus, allosteric changes remote from the ligand-binding interface regulate both bond formation and dissociation.     

Synthesis of oligosaccharides with group specificity for blood types A, B and H (Type 3)

Chemical synthesis of A, B, and H (type 3) human blood group determinant oligosaccharides (as R-glycosides, R = OCH2CH2CH2NHCOCF3) and their polymeric derivatives are reported. 4,6; 4',6'-Di-O-benzylidene derivative of Gal beta 1----3GalNAc alpha 1----R was chloroacetylated selectively at 3'-OH, the chloroacetate was alpha-fucosylated and dechloroacetylated to give protected H (type 3) trisaccharide bearing free 3'-OH. alpha-Glycosylation of the trisaccharide with 2-azido-3,4,6-tri-O-benzyl-beta-D-galactopyranosyl chloride and 2,3,4,6-tetra-O-benzyl-alpha-D-galactopyranosyl bromide gave rise to protected A and B tetrasaccharides, respectively. Deprotected R-glycosides were converted to OCH2CH2CH2NH2 derivatives. Their reaction with poly(4-nitrophenylacrylate) affords polyacrylamide-coupled conjugates with A, B, and H (type 3) specificity.     

IgG antibodies to Lewis type 2 antigens in serum of H. pylori-infected and noninfected blood donors of different Lewis(a,b) blood-group phenotype

Individuals of the Le(b+)/secretor phenotype revealed a stronger natural immune response to Le(x) and Le(y) epitopes irrespective of Helicobacter pylori serologic status. In contrast, H. pylori-infected Le(b-) type individuals showed a significantly higher proportion of strong responders to Le(x) antigen compared with the H. pylori-uninfected subgroup. The data suggest that the immune response to Lewis type 2 determinants is related to both the H. pylori serologic status and the Le(a,b) phenotype of the host.     

Specificity of human anti-NOR antibodies,a distinct species of "natural" anti-alpha-galactosyl antibodies

Natural anti-NOR antibodies are common in human sera and agglutinate human erythrocytes of a rare NOR phenotype. The NOR phenotype-related antigens are unique neutral glycosphingolipids recognized by these antibodies and Griffonia simplicifolia IB4 isolectin (GSL-IB4). The oligosaccharide chains of NOR glycolipids are terminated by Galalpha1-4GalNAcbeta1-3Galalpha units. To characterize the specificity of anti-NOR antibodies and compare it with specificities of GSL-IB4 and known anti-Galalpha1,3Gal antibodies, alpha-galactosylated saccharides and saccharide-polyacrylamide conjugates were used. New synthetic oligosaccharides, corresponding to the terminal di- and trisaccharide sequence of NOR glycolipids and the conjugate of the NOR-tri with HSA were included. These compounds were tested by microtiter plate ELISA and hemagglutination inhibition. Anti-NOR antibodies reacted most strongly with Galalpha1-4GalNAcbeta1-3Gal (NOR-tri), and over 100 times less strongly with Galalpha1-4GalNAc (NOR-di). The antibodies reacted also with Galalpha1-4Gal and Galalpha1-4Galbeta1-4GlcNAc, similarly as with NOR-di but not with other tested compounds. In turn, anti-Galalpha1,3Gal antibodies reacted most strongly with Galalpha1-3Gal and were very weakly inhibited by the NOR-related oligosaccharides (weaker than by galactose), and NOR-tri was less active than NOR-di. GSL-IB4 reacted with all tested alpha-galactosylated saccharides and conjugates, including the similarly active NOR-tri and NOR-di. These results showed that anti-NOR represent a new species of anti-alpha-galactosyl antibodies with high affinity for the Galalpha1-4GalNAcbeta1-3Gal sequence present in rare NOR erythrocytes.     

Unique conformer selection of human growth-regulatory lectin galectin-1 for ganglioside GM1 versus bacterial toxins

Endogenous lectins induce effects on cell growth by binding to antennae of natural glycoconjugates. These complex carbohydrates often present more than one potential lectin-binding site in a single chain. Using the growth-regulatory interaction of the pentasaccharide of ganglioside GM(1) with homodimeric galectin-1 on neuroblastoma cell surfaces as a model, we present a suitable strategy for addressing this issue. The approach combines NMR spectroscopic and computational methods and does not require isotope-labeled glycans. It involves conformational analysis of the two building blocks of the GM(1) glycan, i.e., the disaccharide Galbeta1-3GalNAc and the trisaccharide Neu5Acalpha2-3Galbeta1-4Glc. Their bound-state conformations were determined by transferred nuclear Overhauser enhancement spectroscopy. Next, measurements on the lectin-pentasaccharide complex revealed differential conformer selection regarding the sialylgalactose linkage in the tri- versus pentasaccharide (Phi and Psi value of -70 degrees and 15 degrees vs 70 degrees and 15 degrees, respectively). To proceed in the structural analysis, the characteristic experimentally detected spatial vicinity of a galactose unit and Trp68 in the galectin's binding site offered a means, exploiting saturation transfer from protein to carbohydrate protons. Indeed, we detected two signals unambiguously assigned to the terminal Gal and the GalNAc residues. Computational docking and interaction energy analyses of the entire set of ligands supported and added to experimental results. The finding that the ganglioside's carbohydrate chain is subject to differential conformer selection at the sialylgalactose linkage by galectin-1 and GM(1)-binding cholera toxin (Phi and Psi values of -172 degrees and -26 degrees, respectively) is relevant for toxin-directed drug design. In principle, our methodology can be applied in studies aimed at blocking galectin functionality in malignancy and beyond glycosciences.