Showing papers on "Sialic acid published in 1981"

Metastatic Potential is Positively Correlated with Cell Surface Sialylation of Cultured Murine Tumor Cell Lines

Abstract: The ability of murine tumor cells to metastasize spontaneously from subcutaneous sites is positively correlated with the total sialic acid content of the cells in culture, the degree to which the sialic acid is exposed on the tumor cell surface, and, most strongly, with the degree of sialylation of galactosyl and N-acetylgalactosaminyl residues in cell surface glycoconjugates. These findings suggest that sialic acid on the cell surface may play a role in tumor cell metastasis.

Structural characterization of human melanoma-associated antigen p97 with monoclonal antibodies.

Abstract: Monoclonal antibodies were used to study p97, a human melanoma-associated antigen (MAA). Four hybridomas, designated 4.1, 96.5, 118.1, and 8.2, were obtained by fusing mouse myeloma cells with spleen cells from mice immunized with human melanoma cells. Antibodies 4.1 and 8.2 were IgG1; antibodies 96.5 and 118.1 were IgG2a. Sequential immunoprecipitation (IP) and sodium-dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) showed that all 4 antibodies recognized the same 97 kilodalton (kD) protein. Binding studies with 125I-labeled antibody showed that antibodies 4.1 and 96.5 bound the same epitope, p97a. Antibodies 118.1 and 8.2 defined epitopes p97b and p97c, respectively. Six monoclonal antibodies (M17, L1, L10, R10, I12, and K5) specific for gp95, a kD melanoma cell surface glycoprotein were also tested. Sequential IP showed that these antibodies bound p97; p97 and gp95 are thus identical. Binding studies showed that antibody m17 bound epitope p971, and antibodies L1, L10, and R19 bound epitope p97c. Antibodies I12 and K5 defined 2 other epitopes, p97d and p97e, respectively. SDS-PAGE under nonreducing conditions indicated that p97 is monomeric, probably with intrachain disulfide bonds. Cell-surface labeling of sialic acid residues and neuraminidase digestion showed that p97 is a sialoglycoprotein. Digestion of p97 with papain or trypsin produced a stable 40 kD fragment, which expressed epitopes p971, p97b, and p97c, but not p97d or p97e.

Specific gangliosides function as host cell receptors for Sendai virus.

Abstract: The ability of specific gangliosides to function as host cell receptors for Sendai virus was investigated by using Madin-Darby bovine kidney cells which become resistant to infection upon treatment with Vibrio cholerae sialidase. Sialidase-treated cells were incubated for 20 min at 37 degrees C with individual, highly purified gangliosides containing homogeneous carbohydrate moieties and then inoculated with virus for 10 min. Susceptibility of the cells to infection was monitored by hemagglutination titer of the virus produced 48 hr after inoculation. Incubation of the cells with gangliosides containing the sequence NeuAc alpha 2,3Gal beta 1,3GalNAc (i.e., GD1a, GT1b, and GQ1b) fully restored susceptibility to infection to the cells. However, the ganglioside GQ1b in which the sequence ends with two sialic acids in a NeuAc alpha 2,8NeuAc linkage instead of a single sialic acid as in GD1a and GT1b, was effective as a receptor at a concentration 1/100th that of any of the other gangliosides tested. Incubation with gangliosides similar in structure to GD1a, GT1b, and GQ1b but lacking the sialic acid attached to the terminal galactose (i.e., GM1 and GD1b) had no effect. The results from control experiments in which gangliosides were incubated at 0 degrees C with cells or in which trypsin was used to remove gangliosides adsorbed to cells were consistent with the premise that the gangliosides must actually insert into the cellular membrane to function as Sendai virus receptors. Addition of 4 X 10(6) molecules of 14C-labeled GD1a per cell made the cells fully susceptible to infection. Analysis of the ganglioside content of cell membranes showed that gangliosides GD1a, GT1b, and GQ1b are natural components of these cells and are present in quantities sufficient to act as receptors. These results demonstrate that gangliosides with the proper carbohydrate sequence, such as GD1a, GT1b, and GQ1b, function as natural receptors for Sendai virus in host cells.

Immunogenic polysaccharide-protein conjugates

Abstract: Antigenic polysaccharides are modified to generate a terminally-located aldehyde group by controlled oxidation of vicinal hydroxyl groups, e.g. of unlinked terminal non-reducing sialic acid residues. In some cases where there is a reducing end group, e.g. of the type N-acetylmannosamine residue, it can be made into the most susceptible site for oxidation by initially reducing it to its open chain hydroxyl form, e.g. N-acetylmannosaminitol. The vicinal hydroxyl oxidation is controlled to yield a reactive aldehyde group which is then covalently linked to a free amino group of a selected protein by reductive amination. The resulting polysaccharide-protein conjugates are soluble and have been found to have enhanced antigenicity compared to the polysaccharide alone. This terminal aldehyde:free amine group reductive amination can be applied to various polysaccharide antigens and various well-tolerated proteins, preferably protein immunogens. For example, meningococcal group A, B and C polysaccharides have been linked to tetanus toxoid to give soluble conjugates which have been found to have advantageous immunogenic properties.

Direct demonstration of glycosylation of insulin receptor subunits by biosynthetic and external labeling: evidence for heterogeneity

Abstract: Insulin receptors of human lymphocytes (IM-9 line) were biosynthetically labeled with [3H]glucosamine, [3H]galactose, [3H]fucose, or [3H]mannose. After solubilization in Triton X-100, cell extracts were immunoprecipitated with serum from a patient containing autoantibodies to the insulin receptor. Na-DodSO4/polyacrylamide gel electrophoresis of the immunoprecipitates under reducing conditions showed the presence of major labeled subunits of apparent Mr 134,000 and 98,000 and a minor component of Mr 206,000. The ratio of activity in the 134,000 versus 98,000 Mr bands varied from 2:1 for mannose to 1.2:1 for galactose. In addition, the receptor subunits could be demonstrated when the cell surface of intact lymphocytes was labeled with NaB3H4 by using either the galactose oxidase (acts on nonreducing terminal galactose and N-acetylgalactosamine) technique or the periodate (oxidizes sialic acid) technique. With the periodate treatment, NaB3H4 labeled preferentially the Mr 98,000 band. With the galactose oxidase procedure, on the other hand, NaB3H4 labeled only the Mr 134,000 band; prior treatment with neuraminidase increased the labeling of this band and also revealed the Mr 98,000 subunit. These data demonstrate that the major subunits of the insulin receptor are complex glycoproteins that have differences in the nonreducing ends of the carbohydrate chains. In the Mr 134,000 subunit, there appear to be more exposed galactosyl or N-acetylgalactosaminyl (or both) residues, whereas the Mr 98,000 subunit appears to have a higher degree of sialylation. These labeling techniques provide new tools to examine the role of the carbohydrate moiety in insulin receptor function and turnover.

Identification with a monoclonal antibody of a predominantly B lymphocyte-specific determinant of the human leukocyte common antigen. Evidence for structural and possible functional diversity of the human leukocyte common molecule

Abstract: Initial studies with the monoclonal antibody F8-11-13 described in this paper showed that it reacted strongly with B lymphocytes, did not react at all with granulocytes, and reacted only weakly with a small subpopulation of thymocytes and peripheral T lymphocytes. This picture was entirely different from that seen with monoclonal antibodies to the leukocyte common (LC) antigen, where 100% of all the above-mentioned leukocyte populations were positive. Biochemical studies using detergent solubilized membranes labeled with 3H at the sialic acid residues showed that the molecule bearing the F8-11-13 determinant was a glycoprotein of 215,000 mol wt, and that the peak depleted by F8-11-13 monoclonal antibody affinity columns corresponded to the high molecular weight region of a broad peak previously shown to be completely depleted by monoclonal antibody (F10-89-4) affinity columns directed at the LC antigen. Proof that the F8-11-13 determinant was expressed on some LC molecules was established by cross-inhibition studies with affinity-column-purified and depleted material. This finding of a serologically identifiable conformational or other structural change selectively expressed on the LC molecule of a functionally discrete population of lymphocytes has interesting implications for the structure and function of the LC molecule, and might be relevant to functional consideration of other membrane molecules.

Lectins in higher plants

Abstract: Publisher Summary This chapter discusses physicochemical properties of lectins in higher plants. Lectins are best defined as sugar-binding and cell-agglutinating proteins of nonimmune origin. In contrast to antibodies, which are structurally similar, lectins vary in composition, MW, subunit structure, and number of sugar-binding sites. The presence of a lectin in a plant is readily detected by testing whether an extract of the plant agglutinates erythrocytes and by demonstrating that the agglutination is sugar-specific. Blood group-specific lectins are identified with the aid of a panel of typed human erythrocytes. The most common cell modification is mild digestion with trypsin or other proteolytic enzymes or with neuraminidase, an enzyme that removes sialic acid from complex carbohydrates. Lectins may also be detected by their ability to form precipitates with polysaccharides or glycoproteins, either in liquid or semisolid media. Such interactions also provide information regarding lectin specificity, and on the constituent sugars and glycosidic linkages of the polysaccharide or glycoprotein precipitated.

The structure of carbohydrate unit B of porcine thyroglobulin

Abstract: The oligosaccharide fraction was obtained from porcine thyroglobulin by hydrazinolysis. Four fractions of unit B-type oligosaccharides were purified by successive chromatographies on columns of DEAE-cellulose and concanavalin A-Sepharose, and their structures were investigated by the combination of endo- and exo-glycosidase digestions, methylation analysis and Smith degradation. From the results of these studies, the structures of the unit B oligosaccharides were proposed to be as follows: see formula in text. Thus the glycoprotein was found to have triantennary and biantennary complex-type oligosaccharides as acidic sugar chains. Concerning the triantennary oligosaccharides, the following structural features were shown: (1) the sialic acid residues were not localized on certain specific branches but distributed on all three branches; (2) however, alpha (2 leads to 3)-linked sialic acid residues were exclusively located on the terminal of the branch arising from C-4 of the branching alpha-mannose residue, whereas alpha (2 leads to 6)-linked sialic acid residues occupied terminals of the other branches; (3) the outer branching alpha-mannose residue was attached to C-3 or C-6 of an inner branching beta-linked mannose residue, and both types were observed to exist.

Evidence of a reduced sialic acid content in serum transferrin in male alcoholics

Abstract: A qualitative change of the microheterogeneity of serum transferrin, demonstrated by isoelectric focusing, has previously been found to occur frequently and with high specificity in alcoholic patients during current abuse, and has been proposed as a new marker of alcoholism. Certain indirect evidence has supported the assumption that the basis for the altered transferrin heterogeneity would be a reduced sialic acid content. In this investigation serum transferrin from healthy controls and alcoholic patients was purified by affinity chromatography on antitransferrin Sepharose 4B. The sialic acid content in transferrin was thereafter determined directly. Transferrin from alcoholic patients showed a 22% lower sialic acid concentration than control transferrin, which was highly significant. These data together with results from experiments with neuraminidase and galactose-binding lectin provide evidence that in alcoholism at least two sialic acid residues are missing in a significant fraction of serum transferrin. This observation may indicate that sialic acid residues are missing in a significant fraction of serum transferrin. This observation may indicate that sialic acid metabolism is one important target of the biological action of ethanol.

Conformational aspects critical to the immunospecificity of the type III group B streptococcal polysaccharide.

Abstract: Immunization of rabbits with group B type III streptococcus organisms induces two distinct populations of antibodies with a specificity for determinants on the native capsular polysaccharide antigen of these organisms. Some of the structural and conformational features of the two determinants responsible for the formation of these antibodies were elucidated by (13)C NMR and serological studies on the native type III polysaccharide and some of its structurally modified analogues. The specificity of the determinant corresponding to the major population of antibodies is dependent of the presence of sialic acid residues on the native type III antigen, and although these residues are not an integral part of the determinant, they exert conformational control over it. The carboxylate groups of the sialic acid residues are an important factor in this control mechanism which could possibly involve intramolecular hydrogen bonding. The terminal sialic acid residues control the orientation of the penultimate beta-d-galactopyranose residues with respect to the backbone of the native antigen. The orientation of these residues is critical to the determinant because the determinant is probably small and is located precisely at the junction of the same beta-d-galactopyranose residues with the backbone of the native type III antigen. The determinant corresponding to the other population of antibodies is not sialic acid dependent. This determinant is located on the backbone of the native antigen in the vicinity of the other determinant but on the opposite side to the oligosaccharide branches. In this position, its conformation is unaffected even by the removal of the oligosaccharide branches from the native antigen.

Glycolipids: Receptors for fibronectin?

Abstract: We have examined the hypothesis that glycolipids might serve as receptors for the cell surface glycoprotein fibronectin using three different biological assay systems. We find that purified solubilized gangliosides inhibit fibronectin-mediated hemagglutination, cell spreading, and restoration of a normal morphologic phenotype to transformed cells. The inhibition is dose-dependent and competitive; hemagglutination by 2 micrograms/ml fibronectin is half-maximally inhibited by less than 1 microM gangliosides. The most effective ganglioside inhibitors generally contain the most sialic acid residues. The isolated oligosaccharide portions of gangliosides retain this inhibitory activity and the oligosaccharides with more sialic acid are more effective inhibitors. A series of other lipids or ganglioside constituents are either less effective or without detectable activity. The more active of these lipids are the more negatively charged phospholipids such as phosphatidyl serine and phosphatidyl inositol. Our results support the hypothesis that the "receptors" for fibronectin on the cell surface either consist of or contain gangliosides or other negatively charged lipids.

The site of incorporation of sialic acid residues into glycoproteins and the subsequent fates of these molecules in various rat and mouse cell types as shown by radioautography after injection of [3H]N-acetylmannosamine. I. Observations in hepatocytes.

Abstract: To study the site of incorporation of sialic acid residues into glycoproteins in hepatocytes, we gave 40-g rats and 15-g Swiss albino mice a single intravenous injection of [3H]N-acetylmannosamine (8 mCi) and then sacrificed them after 2 and 10 min. To trace the subsequent migration of the labeled glycoproteins, we injected 40-g rats with 4 mCi of [3H]N-acetylmannosamine and sacrificed them after 20 and 30 min, 1, 4, and 24 h, and 3 and 9 d. Concurrent biochemical experiments were carried out to test the specificity of injected [3H]N-acetylmannosamine as a precursor for sialic acid residues of glycoproteins. In radioautographs from rats and mice sacrificed 10 min after injection, grain counts showed that over 69% of the silver grains occurred over the Golgi region. The majority of these grains were localized over the trans face of the Golgi stack, as well as over associated secretory vesicles and possibly GERL. In rats, the proportion of grains over the Golgi region decreased with time to 37% at 1 h, 11% at 4 h, and 6% at 24 h. Meanwhile, the proportion of grains over the plasma membrane increased from 4% at 10 min to 29% at 1 h and over 55% at 4 and 24 h; two-thirds of these grains lay over the sinusoidal membrane, and the remainder were equally divided over the lateral and bile canalicular membranes. Many silver grains also appeared over lysosomes at the 4- and 24-h time intervals, accounting for 15-17% of the total. At 3 and 9 d after injection, light microscope radioautographs revealed a grain distribution similar to that seen at 24 h, with a progressive decrease in the intensity of labeling such that by 9 d only a very light reaction remained. Because our biochemical findings indicated that [3H]N-acetylmannosamine is a fairly specific precursor for the sialic acid residues of glycoproteins (and perhaps glycolipids), the interpretation of these results is that sialic acid is incorporated into these molecules in the Golgi apparatus and that the latter then migrate to secretion products, to the plasma membrane, and to lysosomes in a process of continuous renewal. It is possible that some of the label seen in lysosomes at later time intervals may have been derived from the plasma membrane or from material arising outside the cells.

Correlation of glycosphingolipids and sialic acid in YAC‐1 lymphoma variants with their sensitivity to natural killer‐cell‐mediated lysis

Abstract: Sialoglycoconjugates and glycosphingolipids were quantitated in a series of variants derived from the YAC-1 lymphoma, known to be highly sensitive to natural killer (NK)-cell-mediated lysis. The variants, which had widely diverging sensitivities to NK cells, were obtained by a number of methods, including selection in the presence of NK cells, antibody to H-2, or antibody to the murine leukemia-virus-induced antigen, and by fusion of sensitive cells with an NK-resistant cell line, A9HT. The sensitivities of these cells to NK-cell-mediated lysis did not correlate with their sensitivities to anti-H-2a cytotoxic T cells. While no correlation could be made between the NK-sensitivity of these variants and their total cellular sialic acid, a statistically significant inverse correlation was observed between the levels of percentage neuraminidase releasable surface sialic acid of total labelled sialyl components and sensitivity to NK cells. This correlation with cell surface sialic acid was observed with either endogenous or lymphocytic choriomeningitis virus-induced activated NK cells as effectors. Neuraminidase treatment of insensitive target cells caused a moderate increase in sensitivity but failed to render the resistant targets as sensitive as YAC-1. Analysis of glycosphingolipids among the variants revealed a strong positive correlation between the total cell neutral glycolipid with chromatographic migration of asialo-GM2 and sensitivity to endogenous or activated NK-cell-mediated lysis. Significant correlations were not found with any other neutral glycolipids. However, ganglioside homologues with chromatographic mobility of GM1, GD1a, GD1b, and GT also showed a positive correlation with both endogenous and activated NK-cell-mediated lysis. The ratio of asialo-GM2 to GM2 had a highly significant positive correlation with sensitivity. These correlative results suggest that asialo-GM2 and certain gangliosides could be involved in binding or lytic events in NK cell:target cell interactions, and that high levels of sialic acid and sialylation on the cell surface may inhibit and/or modify such interactions. Further studies with these YAC variants should be useful for examining the biochemical bases of target cell-effector cell interactions in the NK-system.

The release of N-acetyl- and N-glycolloyl-neuraminic acid from soluble complex carbohydrates and erythrocytes by bacterial, viral and mammalian sialidases.

Abstract: A series of substrates, sialyl(2 leads to 6)GalNAc and ganglioside GM3, containing either N-acetylneuraminic acid (AcNeu) or N-glycolloylneuraminic acid (GcNeu), has been prepared. The trisaccharide GcNeu(2 leads to 3)lactose was preapred by ozonolysis of GcNeu-GM3, and the disaccharides AcNeu(2 leads to 6)GalNAc and GcNeu(2 leads to 6)GalNAc were isolated from bovine submandibular-gland mucin by alkali elimination. Sialidases from Newcastle-disease virus, fowl-plague virus, influenza virus A2, Clostridium perfringens, Vibrio cholerae, Arthrobacter ureafaciens and human liver lysosomes were studied with the above substrates and all showed poorer cleavage of GcNeu-containing substrates when compared with the corresponding AcNeu-containing compounds. This was reflected in the Km and Vmax. values of these sialidases. Differences between viral and bacterial sialidases could be detected on the basis of their kinetic constants and time curves of sialic acid release. Preferred release of AcNeu relative to GcNeu was also observed with bovine submandibular gland mucin and a mixture of human and porcine erythrocytes, macromolecular substrates containing both AcNeu and GcNeu. The significance of differential cleavage of AcNeu and GcNeu by sialidases is considered together with examples of the role of GcNeu in physiologicaL systems.

Hepatic recognition and catabolism of serum glycoproteins

Abstract: WITH THE exception of albumin, essentially all serum proteins are glycoproteins, that is, proteins to which one or more carbohydrate chains are bound in covalent linkage. The sugars most commonly found in association with proteins are galactose, mannose,N-acetylhexosamine, sialic acid, and fucose. Glucose occurs rarely, if at all, as a normal constituent of circulating proteins. In general, the carbohydrate moiety may be envisaged as consisting of two domains. The outer, nonreducing terminus is composed of the trisaccharide, sialic acid-galactose-N-acetylglucosamine. Usually, between two and four such terminal triads may be linked glycosidically to the second domain, which is composed of three mannose and twoN-acetylglucosamine residues. The structure of a typical, complex carbohydrate chain is illustrated in the Figure. On treatment with neuraminidase, the sialic acid moiety is cleaved to reveal the penultimate galactose moiety as the new, nonreducing termini of the resulting asialoglycoprotein. Fucose, which

Development of Synaptic Glycoproteins: Effect of Postnatal Age on the Synthesis and Concentration of Synaptic Membrane and Synaptic Junctional Fucosyl and Sialyl Glycoproteins

Abstract: Synaptic plasma membranes (SPM) and synaptic junctions (SJ) were isolated from the cortices of rats varying in age between 5 and 28 days. Gel electrophoresis of SPM and SJ indicated a marked increase in the concentration of the “PSD protein” (M. W. 52,000) with development. The biosynthesis of glycoproteins was measured following the intracranial injection of [3H]fucose or [3H]N′-acetylmannosamine. The incorporation of [3H]fucose into synaptic fractions decreased two- to threefold between 10 and 28 days whereas little change in the incorporation of [3H]N′-acetylmannosamine occurred over the same period. Gel electrophoretic analyses of labeled synaptic membranes indicated major increases in the relative incorporation of radiolabeled precursors into glycoproteins with apparent molecular weights of 74,000, 65,000, 50,000, and 40,000 with increasing age. Identification of fucosyl and sialyl glycoproteins following reaction with 125I-fucose-binding protein or labeling of sialic acid with NaIO4NaB[3H4] demonstrated similar increases in the concentrations of these glycoproteins. Synaptic junctions contained three major glycoproteins with apparent molecular weights of 180,000, 130,000 and 110,000. The reaction of these glycoproteins with 125I-fucose-binding protein increased one- to twofold between 10 and 28 days but little variation in their relative distribution or synthesis occurred over this period. The reaction of synaptic junctional glycoproteins GP 180 and GP 110 with 125I-wheat germ ag-glutinin increased between 10 and 28 days. The results indicate that the molecular composition of the synapse continues to evolve after the initial synaptic contact has been formed.

Host modification of Sindbis virus sialic acid content influences alternative complement pathway activation and virus clearance.

Abstract: Previous studies have shown that Sindbis virus, an enveloped alphavirus of the togavirus group, activates the alternative complement pathway in the absence of detectable antiviral immunoglobulin. The present studies examined the role of the host-determined sialic acid content of Sindbis virus on activation of the alternative complement pathway. Purified Sindbis virus grown in baby hamster kidney (BHK-SV) and in mosquito (MOSQ-SV) cells yielded virus with 10.2 and less than 2.0 nmol sialic acid/mg viral protein, respectively. Sindbis virus deficient in sialic acid (2.0 nmol sialic/mg) was also produced by treating the BHK-SV with neuraminidase (NANase-SV). When MOSQ-SV or NANase-SV was incubated in either C4DGPS or C2DHS, each consumed significantly more C3 than did BHK-SV, indicating that the ability of Sindbis virus to activate the alternative pathway is inversely related to its sialic acid content. Studies in vivo showed that virus deficient in sialic acid (MOSQ-SV) was cleared from the blood of mice much more efficiently than was virus rich in sialic acid (BHK-SV), after i.v. inoculation. Furthermore, when animals were depleted of C3 through C9 by cobra venom factor (CoVF) treatment, no differences in the clearance of high and low sialic acid-containing viruses were observed. Thus both the activation in vitro and complement-dependent clearance in vivo are significantly affected by the host-determined sialic acid content of Sindbis virus.

The biochemical properties of urinary human chorionic gonadotropin from the patients with trophoblastic diseases

Abstract: Human chorionic gonadotropin (hCG) was extracted and purified from urine of normal pregnant women and patients with hydatidiform mole and choriocarcinoma using the same methods. Both hCG-hydatidiform mole and hCG-choriocarcinoma as well as hCG-normal pregnancy were separated into α and β subunits by SDS disc electrophoresis upon treatment with 2-mercaptoethanol and showed the same immunoreactivities against anti-hCG, -αhCG, and -β hCG as hCG in each radioimmunoassay. In vivo bioassay, bioactivities of hCG-normal pregnancy and hCG-hydatidiform mole were approximately 7, 000 IU/mg (2nd IS), while that of hCG-chorio-carcinoma was only 400 IU/mg. Conversely, the receptor binding activities in vitro of hCG-chorio-carcinoma was about 3 times more effective than the other 2. Although the amino acid composition of these hCG preparations were practically identical, a great difference in the carbohydrate composition was observed. The significant difference was that while sialic acid was undetectable in hCG-choriocarcinoma approximately 8.5% of sialic acid was found in hCG-normal pregnancy and hCG-hydatidiform mole. A parallel finding was that iodinated hCG-choriocarcinoma was taken up in large quantities by the liver in comparison to the ovary which differed from that observed with hCG-normal pregnancy and hCG-hydatidiform mole in Parlow rats. The present findings support the thesis that neoplastic or malignant transformation of trophoblasts may result in an alteration of the glycosylation process, especially the sialylation, in the biosynthesis of hCG rather than the translation steps.

Isolation and characterization of a major glycoprotein from milk-fat-globule membrane of human breast milk.

Abstract: A major periodate--Schiff-positive component from milk-fat-globule membrane of human breast milk has been purified by selectively extracting the membrane glycoproteins, followed by lectin affinity chromatography and gel filtration on Sephadex G-200 in the presence of protein-dissociating agents. The purified glycoprotein, termed epithelial membrane glycoprotein (EMGP-70), has an estimated mol.wt. of 70 000 and yields a single band under reducing conditions on sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. The glycoprotein contains 13.5% carbohydrate by weight, with fucose, mannose, galactose, N-acetylglucosamine and sialic acid 17.2, 17.0, 21.1, 7.9 and 36.6% respectively of the carbohydrate moiety. Aspartic and glutamic acid and serine are the major amino acid residues.

The role of sialic acid in the functional activity and the hepatic clearance of C1-INH.

Abstract: The immunochemical properties, catabolic clearance, and organ distribution of highly purified radiolabeled human C1-INH were studied after treatment with glycosidases. The antigenicity and C1s inhibitory activity of C1-INH were unimpaired after removal of sialic acid residues (60%) or sialic acid and galactose residues (60 and 20%, respectively) with immobilized neuraminidase and beta-galactosidase. Treatment of C1-INH with neuraminidase was associated with increased cathodal migration of the glycoprotein. In vivo studies in the rabbit, however, showed that removal of sialic acid residues resulted in rapid blood clearance of C1-INH and enhanced localization of the asialo C1-INH in the liver. Subsequent removal of penultimate galactose residues returned the survival time in the circulation and organ distribution to near normal. Additionally, simultaneous infusion of asialo-C1-INH with asialo alpha 1-acid glycoprotein, a protein known to bind to hepatic asialoglycoprotein receptors, dramatically extended the intravascular survival time of asialo C1-INH. In agreement with the observations on other plasma glycoproteins, these results indicate that desialylation of C1-INH results in rapid clearance by hepatic asialoglycoprotein receptors.

A correlation between cell surface sialyltransferase, sialic acid, and glycosidase activities and the implantability of B16 murine melanoma.

Abstract: A murine melanoma variant (B16-F10ir6), resistant to lymphocytic cytolysis, has been shown previously to produce lower numbers of tumor nodules in the lung of C57BL/6J mice following i.v. inoculations. These differences found in tumor implantation and lymphocyte recognition may be due to changes in surface properties of this cell line. Therefore, membrane-bound sialic acid (released by Vibrio cholerae neuraminidase treatment), ectosialyltransferase activity, and total cellular glycosidase levels were measured in this cell line and compared with levels in its parent melanoma tumor cell line, B16-F10, which was selected for its enhanced ability to form tumor nodules. The results of these studies indicate a correlation between the degree of lung implantation and the amount of tumor cell sialic acid accessible to neuraminidase cleavage, tumor cell surface sialyltransferase activity, and several cellular glycosidase activities. These results are consistent with the idea that membrane structural changes in the glycocalyx may account for the ability of a tumor cell to implant and metastasize.