Characterization of mono-, di-, and tri-O-acetylated sialic acids on human cells

The presence of mono-, di-, and tri-O-acetylated sialic acids on human cells was demonstrated by using radiochromatographic and chemical techniques. Human melanoma cells and fresh colon tissue were biosynthetically labeled with 6- (3H) glucosamine. Radiolabeled sialic acids were hydrolytically removed from cellular glycoconjugates, purified by ion-exchange chromatography, and separated by paper chromatography on the basis of the number of O-substitutions on each sialic molecule. This analytical technique characterized radiolabeled sialic acids that migrated with the same Rf as synthetic mono-, di-, and tri-O-acetylated 14C-labeled sialic acids. The mono-O-acetylated sialic acids were characterized by their sensitivity to sodium periodate oxidation and a crude mouse liver esterase preparation. The di- and tri-O-acetylated sialic acids were characterized by their resistance to sodium periodate oxidation and sensitivity to the action of crude mouse liver esterase. Chromatographically separated di- and tri-O-acetylated sialic acids from normal human colon tissue were characterized by their respective ion molecular weights by using fast-atom bombardment-mass spectrometry. Using these methods, we chemically characterized mono, di-, and tri-O-acetylated sialic acids expressed on human cells. Aberrant expression of O-acetylated sialic acids was associated with adenocarcinoma of the colon, leading to a nearly complete loss of di- and tri-O-acetylated sialic acids.     

Enhanced cellular uptake of virus-like particles through immobilization on a sialic acid-displaying solid surface

Herein, we present the efficient cellular uptake of immobilized virus-like particles (VLPs) made of recombinant JC virus capsid proteins. VLPs expressed in Escherichia coli were labeled with fluorescein isothiocyanate (FITC). We compared two approaches for the cellular uptake of the FITC-VLPs. In the first approach, FITC-VLPs were immobilized on a polystyrene substrate, and then NIH3T3 cells were cultured on the same substrate. In the second approach, cells were cultured on a polystyrene substrate, and FITC-VLPs were then added to the cell culture medium. Flow cytometric analysis and confocal laser microscopic observation revealed that immobilized VLPs were incorporated into the cells with higher efficiency than were the diffusive VLPs suspended in solution. The cellular uptake of VLPs on the substrate was increased in a VLP density-dependent manner. As a control, disassembling VLPs to form VP1 pentamers abolished incorporation into the cells. Displaying sialic acid on the substrate enhanced VLP density through the specific affinities between the VLPs and sialic acid, resulting in efficient incorporation into the seeded cells. These techniques can be applied to the development of novel drug delivery systems and cell microarrays not only of nucleic acids but also of small molecules and proteins through their encapsulation in VLPs.     

The hordox correction of excessive proteolytic activity and the sialic acid content of the blood under an emotional influence on rabbits]

The influence of the acute emotional stress on the activity of proteolysis and content of free sialic acids in the blood under usual conditions and after the preliminary introduction of gordox has been studied in the experiment on rabbits. It is established that the parallel rise of their levels under stress reflects degradation of glycoproteins and fragments containing sialic acids under the influence of the increased activity of proteinases. Gordox, together with the inhibition of excessive activation of proteolysis, prevents the rise of the level of sialic acids under the influence of the stress action. The conclusion is made that it is expedient to use inhibitors of proteolytic enzymes for prevention of cellular lesions in stress.     

Structure and role of sialic acids on the surface of Aspergillus fumigatus conidiospores

Aspergillus fumigatus is an opportunistic fungal pathogen that causes a life-threatening invasive fungal disease (invasive aspergillosis, IA) in immunocompromised individuals. The first step of pathogenesis is thought to be the attachment of conidia to proteins in lung tissue. Previous studies in our laboratory have shown that conidia adhere to basal lamina proteins via negatively charged sugars on their surface, presumably sialic acids. Sialic acids are a family of more than 50 substituted derivatives of a nine-carbon monosaccharide, neuraminic acid. The purpose of this study was 2-fold: (1) to determine the structure of sialic acids and the glycan acceptor on A. fumigatus oligosaccharides and (2) to determine the effect on the removal of sialic acids from conidia on conidial binding to the extracellular matrix protein fibronectin and phagocytosis of conidia by cultured macrophages and type 2 pneumocytes. Surface sialic acids were removed using Micromonospora viridifaciens sialidase or using acetic acid, mild acid hydrolysis. Lectin binding studies revealed that the majority of conidial sialic acids are alpha2,6-linked to a galactose residue. High-pressure liquid chromatography of derivatized sialic acids released from conidia revealed that unsubstituted N-acetylneuraminic acid is the predominant sialic acid on the surface of conidia. Enzymatic removal of sialic acid significantly decreased the binding of conidia to fibronectin by greater than 65% when compared with sham-treated controls. In addition, removal of sialic acids decreased conidial uptake by cultured murine macrophages and Type 2 pneumocytes by 33% and 53%, respectively. Hence, sialylated molecules on A. fumigatus conidia are ligands for both professional and nonprofessional phagocytes.     

The importance of sialic acid,pH and ion concentration on the interaction of uromodulin and complement factor H

Uromodulin (UMOD) can bind complement factor H (cFH) and inhibit the activation of complement alternative pathway (AP) by enhancing the cofactor activity of cFH on degeneration of C3b. UMOD, an N-glycans-rich glycoprotein, is expressed in thick ascending limb of Henle's loop where the epithelia need to adapt to gradient change of pH and ion concentration. ELISA-based cofactor activity of cFH and erythrocytes haemolytic assay was used to measure the impact of native and de-glycosylated UMOD on the functions of cFH. The binding assay was performed under different pH and ion concentrations, using ELISA. The levels of sialic acid on UMOD, from healthy controls and patients with chronic kidney disease (CKD), were also detected by lectin-ELISA. It was shown that removal of glycans decreased the binding between UMOD and cFH and abolished the ability of enhancing C3b degradation. In acidic condition, the binding became stronger, but it reduced as sodium concentration increased. A significant decrease of α-2,3 sialic acids on UMOD was observed in CKD patients compared with that of healthy individuals. The sialic acids on UMOD, local pH and sodium concentration could impact the binding capacity between UMOD and cFH and thus regulate the activation of complement AP.     

Attenuation of beta-amyloid induced toxicity by sialic acid-conjugated dendrimeric polymers

beta-amyloid (Abeta) is the primary protein component of senile plaques in Alzheimer's disease and is believed to be associated with neurotoxicity in the disease. We and others have shown that Abeta binds with relatively high affinity to clustered sialic acid residues on cell surfaces and that removal of cell surface sialic acids attenuate Abeta toxicity. In the current work, we have prepared sialic acid conjugated dendrimeric polymers and assessed the ability of these sialic acid conjugated dendrimers to prevent Abeta toxicity. Flow cytometry was used to analyze viability of SH-SY5Y neuroblastoma cells and the effects of soluble and clustered sialic acid mimics on Abeta cell toxicity. Soluble sialic acid attenuation of Abeta induced toxicity was effective only at high sialic acid concentrations and low Abeta concentration. The sialic acid conjugated dendrimeric polymers were able to attenuate Abeta toxicity at micromolar concentrations, or approximately three orders of magnitude lower concentrations than the soluble sialic acid. The toxicity prevention properties of the sialic acid modified dendrimers were a function of dendrimer size. This work may lead to the development of new classes of therapeutics for the prevention of Abeta toxicity.     

Determination of sialic acids in immune system cells (coelomocytes) of sea urchin,Paracentrotus lividus,using capillary LC-ESI-MS/MS

Coelomocytes are considered to be immune effectors of sea urchins. Coelomocytes are the freely circulating cells in the body fluid contained in echinoderm coelom and mediate the cellular defence responses to immune challenges by phagocytosis, encapsulation, cytotoxicity and the production of antimicrobial agents. Coelomocytes have the ability to recognize self from non-self. Considering that sialic acids play important roles in immunity, we determined the presence of sialic acid types in coelomocytes of Paracentrotus lividus. Homogenized coelomocytes were kept in 2 M aqueous acetic acid at 80 °C for 3 h to liberate sialic acids. Sialic acids were determined by derivatization with 1,2-diamino-4,5-methylenediaoxy-benzene dihydrochloride (DMB) followed by capillary liquid-chromatography-electrospray ionization/tandem mass spectrometry (CapLC-ESI-MS/MS). Standard sialic acids; Neu5Ac, Neu5Gc, KDN and bovine submaxillary mucin showing a variety of sialic acids were used to confirm sialic acids types. We found ten different types of sialic acids (Neu5Gc, Neu5Ac, Neu5Gc9Ac, Neu5Gc8Ac, Neu5,9Ac₂, Neu5,7Ac₂, Neu5,8Ac₂, Neu5,7,9Ac₃, Neu5Gc7,9Ac₂, Neu5Gc7Ac) isolated in limited amounts from total coelomocyte population. Neu5Gc type of sialic acids in coelomocytes was the most abundant type sialic acid when compared with other types. This is the first report on the presence of sialic acid types in coelomocytes of P. lividus using CapLC-ESI-MS/MS-Ion Trap system (Capillary Liquid Chromatography-Electrospray Ionization/Tandem Mass Spectrometry).     

Identification of an inducible catabolic system for sialic acids (nan) in Escherichia coli.

Escherichia coli K-12 and K-12 hybrid strains constructed to express a polysialic acid capsule, the K1 antigen, were able to efficiently use sialic acid as a sole carbon source. This ability was dependent on induction of at least two activities: a sialic acid-specific transport activity, and an aldolase activity specific for cleaving sialic acids. Induction over basal levels required sialic acid as the apparent inducer, and induction of both activities was repressed by glucose. Induction also required the intracellular accumulation of sialic acid, which could be either added exogenously to the medium or accumulated intracellularly through biosynthesis. Exogenous sialic acid appeared to be transported by an active mechanism that did not involve covalent modification of the sugar. Mutations affecting either the transport or degradation of sialic acid prevented its use as a carbon source and have been designated nanT and nanA, respectively. These mutations were located by transduction near min 69 on the E. coli K-12 genetic map, between argG and glnF. In addition to being unable to use sialic acid as a carbon source, aldolase-negative mutants were growth-inhibited by this sugar. Therefore, the intracellularly accumulated sialic acid was toxic in aldolase-deficient E. coli strains. The dual role of aldolase in dissimilating and detoxifying sialic acids is consistent with the apparent multiple controls on expression of this enzyme.     

To sialylate,or not to sialylate: that is the question

Most oropharyngeal pathogens express sialic acid units on their surfaces, mimicking the sialyl-rich mucin layer coating epithelial cells and the glycoconjugates present on virtually all host cell surfaces and serum proteins. Unlike the host's cells, which synthesize sialic acids endogenously, several microbial pathogens use truncated sialylation pathways. How microorganisms regulate sialic acid metabolism to ensure an adequate supply of free sugar for surface remodeling is a new area of research interest to basic scientists and those focused on the clinical outcome of the host-pathogen interaction.     

High-pressure liquid chromatography of sialic acids on a pellicular resin anion-exchange column with pulsed amperometric detection: a comparison with six other systems

A wide variety of different sialic acids have been reported in nature. Following their release and purification, detection and quantitation of these molecules is now possible by a number of techniques. We and others have previously reported high-pressure liquid chromatography separation of sialic acids with several different columns, elution methods, and detection techniques. We report here a new method for the separation of sialic acids at neutral pH on a Carbopac PA-1 anion-exchange column of pellicular resin, with pulsed amperometric detection following postcolumn addition of alkali. The major advantages of this system are the separation of a variety of sialic acids, sensitive detection (into the picomole range), and the relative ease of use for preparative purposes. Using a set of defined sialic acid standards, this method is compared and contrasted with six other HPLC methods previously described by us and by others. The advantages and disadvantages of each system are also addressed. In the final analysis, no single method is adequate to completely separate and quantitate all of the known sialic acids. However, used in appropriate combinations, these methods allow exploration of the biology of sialic acids in a manner heretofore not possible.     

Quantifying and resolving multiple vector transformants in S. cerevisiae plasmid libraries

Background

Two sequential enzymes in the production of sialic acids, N-acetyl-D-glucosamine 2-epimerase (GlcNAc 2-epimerase) and N-acetyl-D-neuraminic acid aldolase (Neu5Ac aldolase), were overexpressed as double-tagged gene fusions. Both were tagged with glutathione S-transferase (GST) at the N-terminus, but at the C-terminus, one was tagged with five contiguous aspartate residues (5D), and the other with five contiguous arginine residues (5R).

Results

Both fusion proteins were overexpressed in Escherichia coli and retained enzymatic activity. The fusions were designed so their surfaces were charged under enzyme reaction conditions, which allowed isolation and immobilization in a single step, through a simple capture with either an anionic or a cationic exchanger (Sepharose Q or Sepharose SP) that electrostatically bound the 5D or 5R tag. The introduction of double tags only marginally altered the affinity of the enzymes for their substrates, and the double-tagged proteins were enzymatically active in both soluble and immobilized forms. Combined use of the fusion proteins led to the production of N-acetyl-D-neuraminic acid (Neu5Ac) from N-acetyl-D-glucosamine (GlcNAc).

Conclusion

Double-tagged gene fusions were overexpressed to yield two enzymes that perform sequential steps in sialic acid synthesis. The proteins were easily immobilized via ionic tags onto ionic exchange resins and could thus be purified by direct capture from crude protein extracts. The immobilized, double-tagged proteins were effective for one-pot enzymatic production of sialic acid.     

Attenuation of β-amyloid induced toxicity by sialic acid-conjugated dendrimeric polymers

β-amyloid (Aβ) is the primary protein component of senile plaques in Alzheimer's disease and is believed to be associated with neurotoxicity in the disease. We and others have shown that Aβ binds with relatively high affinity to clustered sialic acid residues on cell surfaces and that removal of cell surface sialic acids attenuate Aβ toxicity. In the current work, we have prepared sialic acid conjugated dendrimeric polymers and assessed the ability of these sialic acid conjugated dendrimers to prevent Aβ toxicity. Flow cytometry was used to analyze viability of SH-SY5Y neuroblastoma cells and the effects of soluble and clustered sialic acid mimics on Aβ cell toxicity. Soluble sialic acid attenuation of Aβ induced toxicity was effective only at high sialic acid concentrations and low Aβ concentration. The sialic acid conjugated dendrimeric polymers were able to attenuate Aβ toxicity at micromolar concentrations, or approximately three orders of magnitude lower concentrations than the soluble sialic acid. The toxicity prevention properties of the sialic acid modified dendrimers were a function of dendrimer size. This work may lead to the development of new classes of therapeutics for the prevention of Aβ toxicity.     

O-acetylation and de-O-acetylation of sialic acids. 7- and 9-o-acetylation of alpha 2,6-linked sialic acids on endogenous N-linked glycans in rat liver Golgi vesicles

We have previously shown that radioactivity from [acetyl-3H]AcCoA is concentrated into isolated intact rat liver Golgi vesicles. The incorporated radioactivity occurred in acid-soluble and acid-insoluble components, and the acid-insoluble fraction included O-acetylated sialic acids (Varki, A., and Diaz, S. (1985) J. Biol. Chem. 260, 6600-6608). Nearly all of the protein-associated radioactivity was found to be in sialic acids alpha 2-6-linked to N-linked oligosaccharides on endogenous glycoproteins. Incubation of the vesicles with CMP-[3H]sialic acid resulted in labeling of a very similar group of glycoproteins. The 3H-O-acetyl groups were found at both the 7- and the 9-positions of N-acetylneuraminic acid residues at the end of the labeling reaction. Although 7-O-acetyl groups can undergo migration to the 9-position under physiological conditions, kinetic studies using O-acetyl-14C-labeled internal and O-acetyl-3H-labeled external standards indicate that during the labeling, release, and purification, negligible migration occurred. Studies with mild periodate oxidation provided further confirmation that O-acetyl esters are added directly to both the 7- and the 9-positions of the sialic acids in this system. The acid-soluble, low molecular weight component is released from the vesicles by increasing concentrations of saponin, and its exit parallels that of CMP-[14C]sialic acid taken up during the incubation. The vesicles themselves are impermeant to free acetate. However, even after short incubations, this saponin-releasable radioactivity was almost exclusively in [3H] acetate and not in [3H]acetyl-CoA. The apparent Km for accumulation of the [3H]acetate is almost identical with that for the generation of the acid-insoluble O-acetylated sialic acids. Most of this accumulation of free acetate is also blocked by coenzyme A-SH. Only a small portion arises from the action of an endogenous esterase on the 3H-O-acetylated sialic acids. Taken together, the results indicate that accumulation of free [3H]acetate occurs within the lumen of the vesicles in parallel with O-acetylation of sialic acids and is probably a product of abortive acetylation. It is not known if this reaction occurs in vivo. Permeabilization of Golgi vesicles to low molecular weight molecules with saponin does not alter the rate of acetylation substantially. Furthermore, double label studies suggest that the intact acetyl-CoA molecule does not gain access to the lumen of the vesicles. These results indicate that the acetylation reaction may have a different mechanism from previously described Golgi glycosylation reactions, wherein specific transporters concentrate sugar nucleotides for use by luminally oriented transferases.     

一些抗癌药物对荷瘤小鼠血清中唾液酸含量的影响

测定荷六种小鼠肿瘤S180肉瘤(实体型和腹水型),腹水肝癌(HepA),艾氏腹水瘤(EC),白血病P388和Lewis肺癌的小鼠腹水和血清中唾液酸含量,结果显示血清中唾液酸含量与肿瘤生长、肿瘤类型有关。腹水中唾液酸含量高,推测肿瘤能比正常组织产生更多唾液酸。对四种腹水肿瘤用阴离子交换树脂层析鉴定,发现HepA腹水中葡萄糖代唾液酸(NcuGc)含量明显低于其它三种腹水瘤。还研究了十几种抗癌药物对荷S180和Lewis肺癌小鼠血清中唾液酸含量的影响。发现吗丙嗪(probimane)和顺铂(DDP)能降低荷瘤小鼠血清中唾液酸含量,提示此二药物在肿瘤治疗中更具选择性。     

Victor Ginsburg's influence on my research of the role of sialic acids in biological recognition

Sialic acids are monosaccharides with relatively strong acidity which belong to the most important molecules of higher animals and also occur in some microorganisms. They are bound to complex carbohydrates and occupy prominent positions, especially in cell membranes. Their structural diversity is high and, correspondingly, the mechanisms for their biosynthesis complex. Sialic acids are involved in a great number of cell functions. Due to their cell surface location these acidic molecules shield macromolecules and cells from enzymatic and immunological attacks and thus contribute to innate immunity. In contrast to this masking role, enabling, for example, blood cells and serum glycoproteins a longer life-time, sialic acids also represent recognition sites for various physiological receptors, such as the selectins and siglecs, as well as for toxins and microorganisms and thus allow their colonization. The recognition function of sialic acids can again be masked by O-acetylation, which modifies the interaction with receptors. Many viruses use sialic acids for the infection of cells. As sialic acids play also a decisive role in tumor biology, they prove to be rather versatile molecules that modulate biological and pathological cellular events in a sensitive way. Thus, they are most prominent representatives of mediators of molecular and cellular recognition.     

Lectin affinity chromatography of proteins bearing O-linked oligosaccharides: application of jacalin-agarose.

The lectin jacalin immobilized on agarose was found to bind a variety of glycoproteins known to contain typical O-linked oligosaccharides, including human IgA, C1 inhibitor, chorionic gonadotropin, plasminogen, bovine protein Z, bovine coagulation factor X, and fetuin. These proteins were eluted from columns of jacalin-agarose specifically by alpha-galactopyranosides such as melibiose and alpha-methylgalactopyranoside but not by lactose or other sugars. Treatment of asialofetuin with endo--alpha--N--acetylgalactosaminidase eliminated its affinity for the lectin column, and other proteins known to contain only N-linked oligosaccharides such as ovalbumin, transferrin, and alpha 1-acid glycoprotein were not retained by the lectin. Binding of proteins with O-linked oligosaccharides to the lectin column did not require divalent cations and was affected little by changes in pH and ionic strength over a wide range. Virtually all of the glycosidically linked oligosaccharides of fetuin, chorionic gonadotropin, and plasminogen are known to be sialated. Thus, binding of these glycoproteins to jacalin, which is known to have affinity for the core disaccharide, 1-beta-galactopyranosyl-3-(alpha-2-acetamido-2-deoxygalactopyranoside ), in O-linked oligosaccharides of these proteins, was not prevented by the presence of sialic acids. Affinity of oligosaccharides for jacalin did appear to be reduced by occurrence of sialic acids as it was found that higher concentrations of melibiose were required to elute asialofetuin than fetuin from jacalin-agarose. Results of the present study indicate that affinity chromatography using this lectin is a widely applicable technique for identifying and purifying proteins bearing O-linked oligosaccharides.     

Evidence for glycoprotein components of the hepatocellular bile acid transporter

The hepatocellular transporter, responsible for the uptake of bile acids and some foreign substances, can be shown to contain carbohydrate moieties. The hepatocellular uptake of cholate and phallotoxin is immediately inhibited by addition of wheat-germ agglutinin. Concanavalin A and lentil lectin reduce the uptake in a time-dependent manner. Apparently sialic acids or N-acetylglucosamine residues are involved in the translocation process. Polypeptides (Mr 50,000, 54,000) of the above transport system, identified by affinity labeling with [3H]isothiocyanatobenzamido cholate and [3H2]diisothiocyano-1,2-diphenylethane-2,2'-disulfonic acid, are heterogenously glycosylated. Binding of 80-90% of the 54, 50 kDa polypeptides to all immobilized lectins tested suggests that both high-mannose and complex type oligosaccharides with fucose and terminal sialic acid residues occur as carbohydrate chains. A 67 kDa labeled polypeptide is not glycosylated. Pilot experiments for purification of the above glycosylated membrane proteins on concanavalin A, lentil lectin and wheat-germ lectin columns are described. However, lectin affinity chromatography is not suitable as a one-step purification procedure for the labeled polypeptides.     

Presence of sialic acids in Lactobacillus plantarum

It was found that Lactobacillus plantarum (strain BA 11) is able to synthesize sialic acids during its growth in MRS medium and that these molecules are located mainly on the surface of the bacterium. It was demonstrated also that the addition externally of N-acetylneuraminic acid in concentrations ranged from 10 to 500 microM into the culture medium, resulted to a substantial increase of the growth rate of the bacterium. Bacterial cultures in presence of added sialic acid (100 microM) for 24 hours, resulted to a two fold increase of the final bacterial mass compared to the cultures in absence of sialic acid. Maximum levels of sialic acids were observed after 48 h of bacterial growth. It was also found that neuraminic acids production was increased when Mn++ and Mg++ ions were added in the culture medium, while the addition of Co++, Ca++, Ba++, Cu++ and Ni++ had a negative effect.     

Metabolic labeling of sialic acids in tissue culture cell lines: methods to identify substituted and modified radioactive neuraminic acids

The parent sialic acid N-acetylneuraminic acid can be modified or substituted in various ways, giving rise to a family of more than 25 compounds. The definitive identification of these compounds has previously required isolation of nanomole amounts for mass spectrometry or NMR. We have explored the possibility of using the known metabolic precursors of the sialic acids, particularly N-acetyl-[6-3H]mannosamine, to label and identify various forms of sialic acids in tissue culture cells. Firstly, we defined several variables that affect the labeling of sialic acids with N-acetyl-[6-3H]mannosamine. Secondly, we have devised a simple screening method to identify cell lines that synthesize substituted or modified sialic acids. We next demonstrate that it is possible to definitively identify the natures of the various labeled sialic acids without the use of mass spectrometry, even though they are present only in tracer amounts. The methods used include paper chromatography, analytical de-O-acetylation, periodate release of the 9-3H as [3H]formaldehyde (which is subsequently converted to a specific 3H-labeled chromophore), acylneuraminate pyruvate lyase treatment with identification of [3H]acylmannosamines, gas-liquid chromatography with radioactive detection, and two new high-pressure liquid chromatography methods utilizing the amine-adsorption:ion suppression and ion-pair principles. The use of an internal N-acetyl-[4-14C]neuraminic acid standard in each of these methods assures precision and accuracy. The combined use of these methods now allows the identification of radioactive tracer amounts of the various types of sialic acids in well-defined populations of tissue culture cells; it may also allow the identification of hitherto unknown forms of sialic acids.