Megalin in normal tissues and carcinoma cells carries oligo/poly α2,8 deaminoneuraminic acid as a unique posttranslational modification

In rat kidney, megalin, a member of the low density lipoprotein receptor gene family, is the sole glycoprotein which carries oligo/poly 2,8 deaminoneuraminic acid (KDN) as a posttranslational modification. We have investigated immunoprecipitated megalin from rat brain, lung and placenta, mouse yolk sac carcinoma and megalin synthesizing carcinoma cell lines, for presence of this unique glycan structure. Our immunoblot analysis revealed the presence of oligo/poly 2,8 KDN on megalin in all the studied normal tissues and carcinoma cells. Furthermore, it is demonstrated that to be part of oligosaccharides O-glycosidically linked to megalin.     

KDN (Deaminated neuraminic acid): Dreamful past and exciting future of the newest member of the sialic acid family

KDN is an abbreviation for 2-keto-3-deoxy-D-glycero-D-galacto-nononic acid, and its natural occurrence was revealed in 1986 by a research group including the present authors. Since sialic acid was used as a synonym for N-acylneuraminic acid at that time, there was an argument if this deaminated neuraminic acid belongs to the family of sialic acids. In this review, we describe the 20 years history of studies on KDN (KDNology), through which KDN has established its position as a distinct member of the sialic acid family. These studies have clarified that: (1) KDN occurs widely among vertebrates and bacteria similar to the occurrence of the more common sialic acid, N-acetylneuraminic acid (Neu5Ac), but its abundant occurrence in animals is limited to lower vertebrates. (2) KDN is found in almost all types of glycoconjugates, including glycolipids, glycoproteins and capsular polysaccharides. (3) KDN residues are linked to almost all glycan structures in place of Neu5Ac. All linkage types known for Neu5Ac; α2,3-, α2,4-, α2,6-, and α2,8- are also found for KDN. (4) KDN is biosynthesized de novo using mannose as a precursor sugar, which is activated to CMP-KDN and transferred to acceptor sugar residues. These reactions are catalyzed by enzymes, some of which preferably recognize KDN, but many others prefer Neu5Ac to KDN. In addition to these basic findings, elevated expression of KDN was found in fetal human red blood cells compared with adult red blood cells, and ovarian tumor tissues compared with normal controls. KDNase, an enzyme which specifically cleaves KDN-linkages, was discovered in a bacterium and monoclonal antibodies that specifically recognize KDN residues in KDNα2,3-Gal- and KDNα2,8-KDN-linkages have been developed. These have been used for identification of KDN-containing molecules. Based on past basic studies and variety of findings, future perspective of KDNology is presented.     

Distribution of the glycoconjugate oligosaccharides in the human placenta from pregnancies complicated by altered glycemia: lectin histochemistry

The aim of this study was to investigate the distribution of the oligosaccharides of the glycoconjugates in placentas from pregnancies complicated by different degree of altered glycaemia. Placentas from women with physiological pregnancies (group 1), with pregnancies complicated by minor degree of glucose intolerance (group 2) and with pregnancies complicated by gestational diabetes mellitus (GDM) treated with insulin (group 3) were collected. Ten lectins were used (ConA, WGA, PNA, SBA, DBA, LTA, UEA I, GSL II, MAL II and SNA) in combination with chemical and enzymatic treatments. The data showed a decrease of sialic acid linked α(2–6) to galactose/N-acetyl-d-galactosamine and an increase of N-acetyl-d-glucosamine in the placentas of the pathological groups, in particular the group 3, comparing to the group 1. A decrease of l-fucose (LTA) and d-galactose-(β1–3)-N-acetyl-d-galactosamine, and an increase and/or appearance of l-fucose (UEA I) and N-acetyl-d-galactosamine were observed in both the pathological groups, particularly in the group 2, with respect to the group 1. In GDM, and even in pregnancies with a simple alteration of maternal glycaemia, the changes in the distribution of oligosaccharides could be related to alteration of the structure and functionality of the placenta.     

N-acetylglucosaminyltransferase substrates prepared from glycoproteins by hydrazinolysis of the asparagine-N-acetylglucosamine linkage. Purification and structural determination of oligosaccharides with mannose andN-acetylglucosamine at the non-reducing termini

Sixteen asparagine-linked oligosaccharides ranging in size from (Man)₂(GlcNAc)₂ (Fuc)₁ to (GlcNAc)₆(Man)₃(GlcNAc)₂ were obtained from human ₁-acid glycoprotein and fibrinogen, hen ovomucoid and ovalbumin, and bovine fetuin, fibrin and thyroglobulin by hydrazinolysis, mild acid hydrolysis and glycosidase treatment. The oligosaccharides hadN-acetylglucosamine at the reducing termini and mannose andN-acetylglucosamine residues at the non-reducing termini and were prepared for use asN-acetylglucosaminyltransferase substrates. Purification of the oligosaccharides involved gel filtration and high performance liquid chromatography on reverse phase and amine-bonded silica columns. Structures were determined by 360 MHz and 500 MHz proton nuclear magnetic resonance spectroscopy, fast atom bombardment-mass spectrometry and methylation analysis. Several of these oligosaccharides have not previously been well characterized.Abbreviations bis bisecting GlcNAc - DMSO dimethylsulfoxide - FAB fast atom bombardment - Fuc l-fucose - Gal d-galactose - GLC gas-liquid chromatography - GlcNAc or Gn N-acetyl-d-glucosamine - HPLC high performance liquid chromatography - Man or M d-mannose - MES 2-(N-morpholino)ethanesulfonate - MS mass spectrometry - NMR nuclear magnetic resonance - PIPES piperazine-N,N-bis(2-ethane sulfonic acid) the nomenclature of the oligosaccharides is shown in Table 1.     

Differential distribution of lectin-binding glycoconjugates in the secretory granules of hamster oviductal ampulla during the estrous cycle: a quantitative cytochemical analysis

 High resolution lectin-gold cytochemistry was used to quantitatively analyze the distribution of glycoconjugates in the hamster oviductal ampulla during the five stages of the estrous cycle. Lectins binding to N-acetyl-d-galactosamine-, d-galactose-, and sialic acid-associated glycoconjugates in the secretory granules of ampullary epithelial secretory cells showed staining of equal intensity throughout the five different stages of the estrous cycle. In contrast, the labeling intensity of glycoconjugates which contain N-acetylglucosamine as terminal sugar residues reached its maximum around the time of ovulation, i.e., at proestrus. Glycoconjugates which carry fucose and mannose as terminal sugar residues appeared to be totally absent from the secretory granules of the oviductal ampulla during the estrous cycle. Together, electron microscopic observations combined with quantitative results indicate that N-acetyl-d-galactosamine-, d-galactose-, and sialic acid-associated glycoconjugates may be secreted into the ampullary lumen irrespective of the stage of the estrous cycle, whereas the secretion of certain N-acetylglucosamine-associated glycoconjugates is stage specific and reaches its peak at the time of ovulation. These findings suggest that, at the time of ovulation, the ampullary epithelium changes its secretory activity and contributes its secretory products to the zona pellucida of oocytes freshly released from the ovary. Accepted: 10 August 1998     

Determination of the structure of sulfated tetra- and pentasaccharides obtained by alkaline borohydride degradation of hen ovomucin. A fast atom bombardment-mass spectrometric and1H-NMR spectroscopic study

Alkaline borohydride reductive cleavage of hen ovomucin resulted in the release of a series of neutral and acidic oligosaccharide-alditols.¹H-NMR spectroscopy in combination with fast ion bombardment-mass spectrometry in negative ion mode were used for investigation of the structures of three oligosaccharide-alditols. The following structures were established: Abbreviations NeuAc N-acetyl-d-neuraminic acid - Gal d-galactose - GlcNAc N-acetyl-d-glucosamine - Gal-NAc-ol N-acetyl-d-galactosaminitol - NMR nuclear magnetic resonance - FAB-MS fast atom bombardmentmass spectrometry     

Ceruloplasmin carries the anionic glycan oligo/poly alpha2,8 deaminoneuraminic acid

Oligo/poly alpha2,8 deaminoneuraminic acid (KDN), a unique posttranslational protein modification, was found on megalin and a not yet characterized 150 kDa glycoprotein. We purified this glycoprotein from rat testis and identified it as ceruloplasmin. Furthermore, immunoprecipitated ceruloplasmin from rat thymus, ovary, blood serum, and postnatal day 2 but not adult lung and brain was immunoreactive for oligo/poly alpha2,8 KDN. The immunoreactivity for oligo/poly alpha2,8 KDN on purified serum ceruloplasmin was abolished by N-glycosidase F treatment but not by beta-elimination, indicating that it is present on N-glycosidically linked oligosaccharides. However, the copper binding activity of ceruloplasmin was independent of the presence of the anionic glycan. By immunohistochemistry, ceruloplasmin was detectable in histologically defined regions in rat ovary, thymus, and spleen. Likewise, by RT-PCR, ceruloplasmin expression was found in various non-hepatic rat tissues and showed a developmentally regulated pattern. Thus, ceruloplasmin, in addition to megalin, represents a glycoprotein carrying oligo/poly alpha2,8 KDN.     

Isolation and characterization of free glycans of the oligomannoside type from the extracellular medium of a plant cell suspension

The oligosaccharides Man₅GlcNAc and Man₃(Xyl)GlcNAc(Fuc)GlcNAc presumed to originate fromN-glycosyl proteins have been purified from an extracellular medium (concentration: 2–5 mg/l of 14 day cultures) of white campion (Silene alba) suspension culture. Their primary structures have been determined by¹H-400-MHz NMR spectroscopy and FAB-MS spectrometry. They are probably the result of an autophagic process including protein catabolism due to sucrose starvation. Additional identification of digalactosylglycerol (galactolipid breakdown) argues for this hypothesis.Abbreviations Fuc l-fucose - Man d-mannose - Xyl d-xylose - GlcNAc N-acetyl-d-glucosamine - Gal d-galactose - Glc d-glucose - FAB-MS fast atom bombardment mass spectrometry - NMR nuclear magnetic resonance     

Synthesis of mono- and disaccharide amino-acid derivatives for use in solid phase peptide synthesis

N-Fluorenylmethyloxycarbonyl-protected serine and threonine derivatives, carryingO-glycosidically - or -linked peracetylated -d-Galp-(1–3)-d-GalNAcp carbohydrate chains, were prepared. These derivatives are intended for use in solid phase glycopeptide synthesis. Suitably protected mono- and disaccharide thioglycosides were used as carbohydrate intermediates. These were activated by treatment with bromine to give the glycosyl bromides, which were then used in silver triflate-promoted glycosidations ofN-fluorenylmethyloxycarbonyl amino-acid phenacyl esters. Removal of the phenacyl esters with zinc gave the target free acids.     

Enzymatic degradation and quantitative lectin labeling for characterizing glycoconjugates which act as lectin acceptors in cat submandibular gland

Summary Sites of binding of eight different lectins (LTA, UEA I, WGA, SBA, DBA, CON A, PNA, RCA I) to cat submandibular gland were studied after exposure of tissue sections to sialidase, -fucosidase, -galactosidase, -mannosidase, -N-acetylglucosaminidase. All lectins were affected by enzymatic predigestion and the labeling of individual lectins was highly dependent upon the glycosidase used to pretreat the sections. Glycoconjugates of demilunar, acinar and ductal cells exhibited a different composition of terminal sequences. For example, fucose proved to form the disaccharide fucose-galactose in demilunar and acinar cells, whereas it was present with the sequence fucose-N-acetyl-d-glucosamine in striated duct cells. Sialic acid participated both to the terminal sequence sialic acid-galactose and sialic acid-N-acetyl-d-galactosamine either in demilunar or in ductal cells. Lectin labeling combined with glycosidase digestion was also helpful in verifying the influence of neighbouring oligosaccharides on the affinity of lectins for the respective sugars.     

Temporal aspects of the O-glycosylation of Saccharomyces cerevisiae mannoproteins

Cleavage of the O-glycosyl bonds of Saccharomyces cerevisiae cell wall mannoproteins by β-elimination resulted in the release of about 8% of the carbohydrate in the form of mannose and other low molecular weight oligomannosaccharides (mannose to mannopentaose), leaving 92% mannose still covalently linked to the peptide, and suggesting that this alkali-resistant fraction was N-glycosidically linked. At the non-permissive temperature, S. cerevisiae sec mutants accumulated in the cytoplasm mannoproteins with different degrees of O- and N-glycosylation. The glycoproteins of mutant sec 20-1 contained 60% of the carbohydrate linked by N-bonds, the remainder being O-glycosidically linked. Strains sec 19-1 and sec 1-1 contained 80 and 87%, respectively, of the mannose as N-linked carbohydrates. In addition, when the non-permissive conditions were prolonged over 2 h, strain sec 20-1 completed the formation of the O-linked oligosaccharides, suggesting that it is the kinetics of the process that determines the final composition of the mannoproteins. Our results suggest that the glycosylation of yeast cell wall mannoproteins is probably initiated in the lumen of the endoplasmic reticulum where the O-linked oligosaccharides may be completed. Maturation of the N-linked oligosaccharides, on the other hand, probably occurs during transport of the nascent mannoproteins to the cell surface.     

FluoroNanogold is a bifunctional immunoprobe for correlative fluorescence and electron microscopy.

We applied a fluorescent ultrasmall immunogold probe, FluoroNanogold (FNG), to immunocytochemistry on ultrathin cryosections. FNG has the properties of both a fluorescent dye-conjugated antibody for fluorescence microscopy and a gold particle-conjugated antibody for electron microscopy. Therefore, this bifunctional immunoprobe permits correlative microscopic observation of the same cell profiles labeled in a single labeling procedure by these two imaging methods. We demonstrate the utility of FNG as a secondary antibody for immunocytochemical labeling of myeloperoxidase (a marker protein for azurophilic granules) in ultrathin cryosectioned human neutrophils. Its detection requires high spatial resolution because neutrophils contain many cytoplasmic granules. There was a one-to-one relationship between fluorescent structures labeled with FNG and organelle profiles labeled with the same silver-enhanced FNG in ultrathin cryosections. Use of FNG immunocytochemistry on ultrathin cryosections is an ideal methodology for high-resolution correlative fluorescence and electron microscopy and can provide unique information that may be difficult to obtain with a single imaging regimen.     

Immunocytochemical assays of amylase and chymotrypsinogen in rat pancreas secretory granules. Efficacy of using immunogold-labeled ultrathin cryosections to estimate relative protein concentrations

An exploration was conducted as to whether the relative concentration of two intracellular proteins could be evaluated quantitatively from their labeling densities in ultrathin cryosections labeled with the immunogold technique. As a model rat pancreatic cells were used in which the content of amylase (Am) and chymotrypsinogen (Ch) was experimentally altered. Rats were fed either normal laboratory chow or food containing soybean trypsin inhibitor (STI), which affects the Am/Ch ratio in the tissues. The changes in Am and Ch protein levels and enzyme activities were measured biochemically in cell suspension homogenates or in zymogen granule fractions. Within 5 days a maximal change in the Am/Ch was observed as a result of adaptation to the STI diet. The Am/Ch ratio determined biochemically was compared with that from counts of gold particles bound to the respective protein in immunogold-labeled cryosections. The two data sets matched fairly well, indicating that the intensity of the immunoreaction is a reliable reflection of antigen concentration in this system.     

Identification of the oligosaccharide structures of human coagulation factor X activation peptide at each glycosylation site

Human blood coagulation factor X has two N-linked oligosaccharides at Asn³⁹ and Asn⁴⁹ residues and two O-linked oligosaccharides at Thr¹⁷ and Thr²⁹ residues in the region of the factorX activationpeptide (XAP) which is cleaved off during its activation by factor IXa. We determined the structure of oligosaccharides in the XAP region of human factor X. Four glycopeptides each containing a glycosylation site were isolated by digestion of XAP with endoproteinase Asp-N followed by reversed-phase HPLC. N-linked oligosaccharides released from the glycopeptides by glycoamidase A digestion were derivatized with 2-aminopyridine. Pyridylamino(PA)-oligosaccharides were separated by HPLC into neutral and sialyl oligosaccharides using an anion-exchange column. Structures of oligosaccharides and their contents at each glycosylation site were determined by a two-dimensional sugar mapping method. The contents of the neutral oligosaccharides at Asn³⁹ and Asn⁴⁹ residues were 32.5% and 30.0%, respectively. Six neutral and twelve monosialyl oligosaccharides isolated from both N-linked glycosylation sites showed similar elution profiles composed of bi-, tri-and tetra-antennary complex type oligosaccharides. The predominant component in neutral oligosaccharides was biantennary without a fucose residue. Two major monosialyl oligosaccharides were also biantennary without fucose and with a Neu5Ac-26 residue. In addition, the structures of O-linked oligosaccharides at Thr¹⁷ and Thr²⁹ residues were suggested to be disialylated Gal/3GalNAc sequences by their component analyses.Abbreviations Gal d-galactose - GlcNAc N-acetyl-d-glucosamine - Man d-mannose - HPLC high-performance liquid chromatography - NDV Newcastle disease virus - Neu5Ac 5-N-acetylneuraminic acid - ODS octadecylsilyl - PA pyridylamino - RVV-X Russell's viper venom factor X activator - TBS Tris-buffered saline - XAP factor X activation peptide.     

Pyranose 2-dehydrogenase, a novel sugar oxidoreductase from the basidiomycete fungus Agaricus bisporus

A novel C-2-specific sugar oxidoreductase, tentatively designated as pyranose 2-dehydrogenase, was purified 68-fold to apparent homogeneity (16.4 U/mg protein) from the mycelia of Agaricus bisporus, which expressed maximum activity of the enzyme during idiophasic growth in liquid media. Using 1,4-benzoquinone as an electron acceptor, pyranose 2-dehydrogenase oxidized d-glucose to d-arabino-2-hexosulose (2-dehydroglucose, 2-ketoglucose), which was identified spectroscopically through its N,N-diphenylhydrazone. The enzyme is highly nonspecific. d-,l-Arabinose, d-ribose, d-xylose, d-galactose, and several oligosaccharides and glycopyranosides were all converted to the corresponding 2-aldoketoses (aldosuloses) as indicated by TLC. d-Glucono-1,5-lactone, d-arabino-2-hexosulose, and l-sorbose were also oxidized at significant rates. UV/VIS spectrum of the native enzyme (λ_max 274, 362, and 465 nm) was consistent with a flavin prosthetic group. In contrast to oligomeric intracellular pyranose 2-oxidase (EC 1.1.3.10), pyranose 2-dehydrogenase is a monomeric glycoprotein (pI 4.2) incapable of reducing O₂ to H₂O₂ (> 5 × 10⁴-fold lower rate using a standard pyranose oxidase assay); pyranose 2-dehydrogenase is actively secreted into the extracellular fluid (up to 0.5 U/ml culture filtrate). The dehydrogenase has a native molecular mass of ∼79 kDa as determined by gel filtration; its subunit molecular mass is ∼75 kDa as estimated by SDS-PAGE. Two pH optima of the enzyme were found, one alkaline at pH 9 (phosphate buffer) and the other acidic at pH 4 (acetate buffer). Ag⁺, Hg²⁺, Cu²⁺, and CN^– (10 mM) were inhibitory, while 50 mM acetate had an activating effect. Received: 19 August 1996 / Accepted: 21 November 1996     

Complement-dependent cytotoxic activity of serum mannan-binding protein towards mammalian cells with surface-exposed high-mannose type glycans

Serum mannan-binding protein (S-MBP), a lectin specific for mannose andN-acetylglucosamine, activates complement through the classical pathway. With the help of complement, S-MBP lyses red blood cells which have been coated with yeast mannan and kills bacteria which haveN-acetylglucosamine and/orl-glycero-d-manno-heptose on their core oligosaccharide. In this study, we examined whether mammalian cells, on which S-MBP could bound, are killed by a complement-dependent mechanism. When baby hamster kidney (BHK) cells were treated with an -mannosidase inhibitor, 1-deoxymannojirimycin (dMM), most of the cellular oligosaccharides were transformed from the complex-type to the high mannose-type. S-MBP bound to the dMM-treated BHK cells in the presence of Ca²⁺, and this binding was eliminated by mannose. When dMM-treated cells, labelled with⁵¹Cr, were incubated with complement, radioactivity was released in a dose-dependent manner by S-MBP and complement. This release was not observed with heat-inactivated complement. These observations suggest that S-MBP is able, with the help of complement, to kill not only exogenous microorganisms but also mammalian cells which have high mannose-type oligosaccharides exposed on their surfaces. Abbreviations: S-MBP, serum mannan-binding protein; BHK, baby hamster kidney; dMM, 1-deoxymannojirimycin; FITC, fluorescein-isothiocyanate; TBS, Tris buffered saline; HIV, human immunodeficiency virus; CH₅₀, 50% haemolytic units. The complement nomenclature used was recommended by the World Health Organization (1986).This paper is dedicated to Nathan Sharon.     

Monoclonal antibody GOM-2 binds to blood group B-Ley active glycolipid antigens on human gastric cancer cells,KATO-III

The antigen structure of a mouse monoclonal antibody, GOM-2, established by immunization with KATO-III human gastric cancer cells, was examined. GOM-2 reactive glycolipids were prepared from KATO-III cells and treated with endoglycoceramidase. Structural studies of ten GOM-2 reactive oligosaccharides by a combination of glycosidase digestions, methylation, and affinity chromatography on anUlex europeus agglutinin I (UEA-I) column revealed that nine of them had a Y-related B-active difucosylated determinant (B-Le^y) and one had a B-active determinant. Affinity chromatography of the purified and modified oligosaccharides on an immobilized GOM-2 column demonstrated that GOM-2 has a novel binding specificity; it binds tightly to the biantennary structure carrying the B-Le^y determinant at the termini or the branched structure carrying the B-Le^y structure at two nonreducing termini.Abbreviations UEA-I Ulex europeus agglutinin I - PNA Arachis hypogaea agglutinin - Fuc l-fucose - Gal d-galactose - Glcol glucitol - GlcNAc N-acetyl-d-glucosamine - TBS 10mm Tris-HCl, pH 7.8, containing 150mm NaCl - PBS 10mm sodium phosphate buffer, pH 7.5, containing 150mm NaCl - HPLC high performance liquid chromatography.     

Oligosaccharide alterations of rat glioblast membrane-bound glycoproteins during differentiation induced by glia maturation factor

Differentiation of normal glioblasts was induced by glia maturation factor (GMF), and the structural change in the oligosaccharide chains of the plasmalemmal glycoproteins was investigated. After the glycopeptides obtained by trypsin treatment of the intact cells had been digested with pronase, the resulting glycopeptides were separated into 4 fractions by gel filtration. The first 2 fractions were found to contain mainly N-glycosidically linked glycopeptides, and the last 2, O-linked oligosaccharides. There were a variety of N-linked oligosaccharides whose apparent molecular weights were greater than that of isomaltoheptaose. As compared to those, O-linked oligosaccharides were fewer in type and lower in molecular weight. The N-linked oligosaccharides corresponding to isomaltohepta- decaose and larger saccharide chains augmented in differentiated glioblasts, whereas the N-linked oligosaccharides smaller than isomaltoheptade- caose decreased. The turnover rate of the high molecular weight oligosaccharides was faster than that of other membrane oligosaccharides, and was accelerated by GMF treatment. The content of an O-linked oligosaccharide fraction increased after GMF treatment.     

Identification,characterization, and developmental expression of a novel α2 → 8-KDN-transferase which terminates elongation of α2 → 8-linked oligo-polysialic acid chain synthesis in trout egg polysialoglycoproteins

A novel glycosyltransferase which catalyses transfer of deaminated neuraminic acid, KDN (2-keto-3-deoxy-d-glycero-d-galacto-nononic acid) from CMP-KDN to the non-reducing termini of oligo-polysialyl chains of polysialoglycoprotein (PSGP), was discovered in the ovary of rainbow trout (Oncorhynchus mykiss). The KDN-transferase activity was optimal at neutral pH, and stimulated 2 to 2.5-fold by 2–5mm Mg²⁺ or Mn²⁺. Expression of KDN-transferase was developmentally regulated in parallel with expression of the 2 8-polysialytransferase, which catalyses synthesis of the oligo-polysialyl chains in PSGP. Incorporation of the KDN residues into the oligo-polysialyl chains prevented their further elongation, resulting in capping of the oligo-polysialyl chains. This is the first example of a glycosyltransferase that catalyses termination of 2 8-polysialylation in glycoproteins.Abbreviations KDN 2-keto-3-deoxy-d-glycero-d-galacto-nononic acid or naturally occurring deaminated neuraminic acid - Neu5Ac N-acetylneuraminic acid - Neu5Ge N-glycolylneuraminic acid - CMP-KDN cytidine 5-(3-deoxy-d-glycero-d-galacto-2-nonulosonic phosphate) or cytidine 5-KDN phosphate - CMP-NeuAc cytidine 5-Neu5Ac phosphate; oligo-polySia, oligo- and/or polysialic acid - PSGP rainbow trout egg polysialoglycoprotein comprising 2 8-linked oligo- polyNeu5Gc - PSGP (low Sia) a precursor of PSGP present at early stages of oogenesis which contains mostly the disialyl group, Sia2 8Sia2 6- - *K-PSGP [¹⁴C]KDN-labelled PSGP obtained by incubating PSGP and CMP-[¹⁴C]KDN with the immature cortical vesicle fraction P1 containing KDN-transferase - *A-PSGP [¹⁴C]Neu5Ac-labelled PSGP obtained by incubating PSGP and CMP-[¹⁴C]Neu5Ac with the P1 fraction - A-*K-PSGP andK-*K-PSGP the products obtained after incubating *K-PSGP with P1 fraction and unlabelled CMP-Neu5Ac or CMP-KDN, respectively - *K-PSGP _cho ,A-*K-PSGP _cho , andK-*K-PSGP _cho mixture of oligosaccharide alditols obtained by alkaline borohydride treatment of *K-PSGP,A-*K-PSGP, and K-*K-PSGP, respectively - *A-PSGP _cho a mixture of oligosaccharide alditols obtained by alkaline borohydride treatment of [¹⁴C]Neu5Ac-labelled PSGP - Endo-N endo-N-acylneuraminidase - DP degree of polymerization - GLC gas-liquid chromatography - HPLC high performance liquid chromatography - TLC thin layer chromatography     

Immunogold labeling of cryosections from high-pressure frozen cells

Immunogold labeling of cryosections according to Tokuyasu (Tokuyasu KT. A technique for ultracyotomy of cell suspensions and tissues. J Cell Biol 1973;57:551–565), is an important and widely used method for immunoelectron microscopy. These sections are cut from material that is chemically fixed at room temperature (room temparature fixation, RTF). Lately in many morphological studies fast freezing followed by cryosubstitution fixation (CSF) is used instead of RTF. We have explored some new methods for applying immunogold labeling on cryosections from high‐pressure frozen cells (HepG2 cells, primary chondrocytes) and tissues (cartilage and exocrine pancreas). As immunolabeling has to be carried out on thawed and stable sections, we explored two ways to achieve this: (1) The section fixation method, as briefly reported before (Liou W et al. Histochem Cell Biol 1996;106:41–58 and Möbius W et al. J Histochem Cytochem 2002;50:43–55.) in which cryosections from freshly frozen cells were stabilized in mixtures of sucrose and methyl cellulose and varying concentrations of glutaraldehyde, formaldehyde and uranyl acetate (UA). Only occasionally does this method reveal section areas with excellent cell preservation and negatively stained membranes like Tokuyasu sections of RTF material. (Liou et al.) (2) The rehydration method, a novel approach, in which CSF with glutaraldehyde and/or osmium tetroxide (OsO₄) was followed by rehydration and cryosectioning as in the Tokuyasu method. Especially, the addition of UA and low concentrations of water to the CSF medium favored superb membrane contrast. Immunogold labeling was as efficient as with the Tokuyasu method.