Sialylation of n-alkyllactosides, galactosides and glucosides by sialyltransferases from rat liver Golgi vesicles

nAlkyl - and -lactosides, galactosides and glucosides with differentalkyl chain lengths (C₂, C₈, C₁₄, and C₂₀) were synthesizedand used as acceptors for sialyltransferases from rat liverGolgi vesicles. The -galactosides, -glucosides, and both - and-lactosides, were sialylated. Keeping the acceptor concentrationconstant, sialylation rates reached a maximum for the n-octyl- and -lactosides, n-Octyl -galactoside and noctyl -glucoside,respectively. noctyl -glucoside, respectivwly. n-Octyl -galactosideand n-octyl -glucoside were not sialylated. The reaction productswere characterized by TLC. With n-octyl lactoside and galactosideas acceptors, two major sialylation products were formed. Thjeycould be separated by preparative TLC, and their structureswere identified as 2–3 and 2–6 sialylated acceptors,respectively, by a combination of periodated oxidation, NaBD₄reduction,permethylation and subsequent analysis by fast atombombardment mass spectrometry (FAB-MS). The structure of thesingle product obtained from n-ictyl -glucoside was determinedto be the 2–6 sialylated glucoside. Competition experimentswith n-octyl lactoside and lactosylceramide and gangliosideGal1-3GalNAc1-4(NeuAc2–3)Gal1–4Glcbeeta1–1Cer(GM1) as acceptors for sialyltransferases suggested that SAT-I[NeuAc2–3Gal1–4Glc1-1Cer (GM3) synthase] was atleast in least in part responsible for the 2–3 sialylationof n-octyl lactoside. alkylgalactosides alkylglucosides alkyllactosides neoglycolipids sialytransferases     

Hydrophobic mannosides act as acceptors for trypanosome {alpha}-mannosyltransferases

A series of hydrophobic mannosides were synthesized and testedfor their ability to act as acceptor substrates for mannosyltransferasesin a Trypanosoma brucei cell-free system. The thiooctyl -mannosidesand octyl -mannosides all accepted single mannose residues in-linkage, as judged by thin layer chromatography of the productsbefore and after jack bean -mannosidase digestion. The mannosylationreactions were inhibited by amphomycin, suggesting that theimmediate donor was dolicholphosphate-mannose (Dol-P-Man) inall cases. The transferred -mannose residues were shown to beboth 1-2 and 1-6 linked by Aspergillus phoenicis -mannosidaseand acetolysis treatments, respectively. These data suggestthat the compounds can act as acceptor substrates for the Dol-P-Mandependent 1-2 and 1-6 mannosyltransferases of the GPI biosyntheticpathway and/or the dolichol-cycle of protein N-glycosylation.One of the compounds, Man1-6Man1-O-(CH₂)₇CH₃, inhibited endogenousGPI biosynthesis in the cell-free system, suggesting that itcould be a substrate for the trypanosome Dol-P-Man:Man₂GlcN-Pl1-2 mannosyltransferase. dolichol glycosylphosphatidylinositol mannosyltransferase trypanosome     

Molecular dynamics simulations of oligosaccharides and their conformation in the crystal structure of lectin-carbohydrate complex: importance of the torsion angle {psi} for the orientation of {alpha}1,6-arm

The conformation of the heptasaccharide Man-1,6-(Man-1,3)(Xyl-ß1,2)-Man-ß,4-GlcNAc₂-ß1,4-(L-Fuc-1,3)-GlcNAc₁,the carbohydrate moiety of Erythrina corallodendron lectin (EcorL),the hexasaccharide Man-1,6-(Man-1,3) (GlcNAc-ß1,4)-Man-ß1,4-GlcNAc-ß1,4-GlcNAcand their disaccharide fragments have been studied by moleculardynamics (MD) simulations for 1000 ps with different initialconformations. In the isolated heptasaccharide, the most frequentlyaccessed conformation during MD has a value of 180° aroundMan-1,6-Man linkage. This conformation is stabilized by theformation of a hydrogen bond between the carbonyl oxygen ofGlcNAc₂ with the O3/O4 hydroxyls of the 1,6-linked mannose residue.The conformation of the heptasaccharide found in the crystalstructure of the EcorL-lactose complex (Shaanan et al., Science,254, 862, 1991), that has a value of 76° around Man-1,6-Manlinkage, is accessed, although less frequently, during MD ofthe isolated oligosaccharide. The ,, = 58°,–134°,–60°conformation around Man-₁,6-Man fragment observed in the crystalstructure of the Lathyrus ochnrs lectin complexed with a biantennaryoctasaccharide (Table I in Homans,S.W., Glycobiology, 3, 551,1993) has also been accessed in the present MD simulations.These values for the 1,6-linkage, which are observed in theprotein-carbohydrate crystal structures and are accessed inthe MD simulations, though occasionally, have not been predictedfrom NMR studies. Furthermore, these different values of leadto significantly different orientations of the 1,6-arm for thesame value of . This contrasts with the earlier predictionsthat only different values of can bring about significant changesin the orientation of the ₁,6-arm. The MD simulations also showthat the effects of bisecting GlcNAc or ß1,2-xyloseare very similar on the ₁,3-arm and slightly different on the₁,6-arm. bisecting GlcNAc carbohydrates glycoprotein lectinsaccharide complex     

Further characterization of the binding properties of a GalNAc specific lectin from Codium fragile subspecies tomentosoides

Previous study on the binding properties of a lectin isolatedfrom Codium fragile subspecies tomentosoides (CFT) indicatesthat this lectin recognizes the GalNAc1 sequence at both reducingand nonreducing ends. In this study, the carbohydrate specificityof CFT was further characterized by quantitative precipitin(QPA) and inhibition of lectin-enzyme binding assays. Of theglycoforms tested for QPA, all asialo-GalNAc1 containing glyco-proteinsreacted well with the lectin. Asialo hamster and ovine submandibularglycoproteins, which contain almost exclusively Tn (GalNAclSer/Thr)residues as carbohydrate side chains, and Streptococcus typeC polysaccharide completely precipitated the lectin added, whilethe GalNAcβcontaining Tamm-Horsfall Sd(a⁺) glycopro-teinand its asialo product were inactive. Among the oligo-saccharidestested for inhibiting lectin-glycoprotein interaction, GalNAc13GalNAcβ13Gal14Galβ14GIc(Fp)and Galβ13GalNAc1benzyl (T) were the best, and about 125-foldmore active than GalNAc They were about 3.3, 6.6, and 43 timesmore active than Tn containing glycopeptides, GalNAc13(LFuc12)Gal(A_h) and Galβ13GalNAc(T), respectively. From the presentand previous results, it is concluded that the combining siteof CFT is probably of a groove type that recognizes from GalNAclto pentasaccharide(Fp). The carbohydrate specificity of thislectin can be constructed and summarized in decreasing orderby lectin determinants as follows: Fp and T > Tn cluster> A_h >>I/II. carbohydrate specificities Codium fragile tomentosoides glycoprotein binding lectins     

Phosphorylation and subcellular location of {alpha}-L-fucosidase in Iymphoid cells from patients with I-cell disease and pseudo-Hurler polydystrophy

Mannose 6-phosphate is a recognition marker used by many newlymade acid hydrolases for their transport to lyso-somes. Previously,we investigated the incorporation of ³²Pi into -L-fucosidaseof lymphoid cell lines from a healthy individual (control) andan I-cell disease patient [DiCioccio and Miller, Glycobiology,1, 595–604 (1991)]. Phosphoserine was found in immunoprecipitable-L-fucosidase of both control and I-cell lymphoid cells, butmannose 6-phosphate was identified only in enzyme of controlcells. Extension of this investigation to lymphoid culturesof a pseudo-Hurler polydystrophy patient also identified onlyphosphoserine in -L-fucosidase. Using [³H] mannose instead of³²Pi, the precise identification of mannose 6-phosphate in -L-fucosidaseof control cells, and its absence in -L-fucosidase of I-celland pseudo-Hurler cells, was established. The stoichiometryof phosphorylation of -L-fucosidase in I-cell, pseudo-Hurlerand control lymphoid cells was 3, 4 and 10 mol Pi/mol enzyme,respectively. -L-Fucosidase was located in lysosomes isolatedfrom control, I-cell and pseudo-Hurler lymphoid cells by subcelluarfractionation on Percoll density gradients. Both I-cell andpseudo-Hurler lymphoid cells displayed normal intralysosomalactivity of -L-fucosidase despite lack of the mannose 6-phosphatemarker. Thus, I-cell and pseudo-Hurler lymphoid cells must possessa mannose 6-phosphate-independent mechanism for directing -L-fucosidaseto lysosomes. Phosphorylation of -L-fucosidase in pseudo-Hurlerand I-cell lymphoid cultures was found almost exclusively inintracellular and not in extracellular enzyme, suggesting thatphosphoserine may participate in the localization of -L-fucosidasein lysosomes of these cells. -L-fucosidase I-cell disease lysosome phosphorylation pseudo-Hurler polydystrophy     

Structural characterization of the disialogangliosides of murine peritoneal macrophages

Sialoglycosphingolipids (gangliosides) have been increasinglyimplicated as regulators of membrane signaling events. Macrophageganglioside patterns dramatically increase in complexity whenmurine peritoneal macrophages are stimulated in vivo with theappearance of the sialidase-sensitive monosialoganglioside GMlb(cisGMl) as a major component Gangliosides from stimulated murineperitoneal macrophages were separated into monosialo and polysialofractions and the polysialo fraction structurally characterizedby enzymatic, chemical, and mass spectra methods. All detectablecomponents of the polysialo fraction were determined to be disialogangliosides.Treatment of the polysialo fraction with Clostridium perfringenssiali-dase produced mostly the sialidase-resistant monosialoganglioside,GMIa, and a minor amount of asiaJoGMI. Perio-date oxidationand mass spectrometry analyses demonstrated the lack of tandemdisialo moieties which indicated the absence of GD1b or GD1c(GDI) entities. The combined data showed the major disialogangliosidesconsisted of GDla entities comprising IV3-NeuAc,II3NeuAc-GgOse4Cer,IV3-NeuGc,II3NeuAc-GgOse4Cer, IV3NeuAc,II3NeuGc-GgOse4Cer, andIV3-NeuGc,II3NeuGc-GgOse4Cer. Minor components consisted ofGDl entities, IV3NeuAc, III6NeuAcGgOse4Cer, IV3NeuGc, III6NeuGcGgOse4Cer,and also positional iso-mer(s) of GDl(NeuAc, NeuGc). These isomericcomponents were identified by collision analysis and tandemmass spectrometry. Consistent with previous analyses, the cer-amideportion of all polysialo (disialo) gangliosides contained solelyC18 sphingosine with C16 and C24 fatty acid moieties. Theseresults, combined with the previous characterization of macrophagemonosialogangliosides, indicate normal murine macrophage gangliosidebiosynthesis proceeds along the "a" ganglioside pathway, e.g.,GM3GM2GMlaGDl, and the proposed asialogan-glioside or "" pathway,asialoGMlGMlbGDl. The presence of totally sialidase-sensitivegangliosides appears to be characteristic of functional murineperitoneal macrophages while they are reduced in geneticallyimpaired cells. ganglioside GDla ganglioside GDl murine macrophages tandem mass spectrometry collision induced dis-association electrospray ionization     

Separation of partially desialylated branched oligosaccharide isomers containing {alpha}(2<-3)- and {alpha}(2<-6)-linked Neu5Ac

The following two tri-sialylated triantennary oligosaccharides,which differ only in the linkage of the Neu5Ac to the uppermostbranch were, individually, partially desialylated to produceall possible di- and mono-sialylated isomers. A tetra-sialylated triantennary isomer, which contained an (26)-linkedNeu5Ac to the GlcNAc on branch III, was also converted to allpossible trisialylated isomers by mild acid hydrolysis as previouslydescribed (Roher et al., Anal Biochem., 212, 7–16, 1993).The resulting branch isomers were separated using high-pH anion-exchangechromatography (HPAEC). Structures were assigned to peak fractionson the basis of the previously described effect of (26)- and(23)-linked Neu5Ac on the elution order of branched lactosamine-typeoligosaccharides (Townsend et al., Anal Biochem., 182, 1–8,1989). No differences in the acid lability of the Neu5Ac linkageto either Gal ((23) or (26)) or GlcNAc ((26)) were observed.Our studies show that chemical desialylation and HPAEC is auseful approach to prepare and identify all possible sialylatedbranch isomers and should prove useful for defining the branchspecificity of sialyltransferases and sialidases. high-pH anion-exchange chromatography pulsed electrochemical detection sialidases sialylated oligosaccharides sialyltransferases     

A novel alpha1,2-fucosyltransferase (CE2FT-2) in Caenorhabditis elegans generates H-type 3 glycan structures

The 1,2-fucosyltransferase family (1,2FT) is the largest familyof glycosyltransferases in the genome of the free-living nematodeCaenorhabditis elegans, and early evidence suggests that eachmember may have a unique activity. Here we describe a C. elegansgene (designated CE2FT-2) encoding an 1,2FT that has the potentialto generate the sequence Fuc1-2Galβ1-3GalNAc-R, which isthe H-type 3 blood group structure. The CE2FT-2 cDNA encodesa putative transmembrane protein that shows 42% amino acid identityto a previously cloned C. elegans 1,2FT (termed CE2FT-1), buthas a very low identity (16–20%) to 1,2FT sequences inhumans, rabbits, and mice. A recombinant form of CE2FT-2 expressedin human 293T cells has a high 1,2FT activity toward Galβ1-3GalNAc-O-pNP,but unexpectedly, the enzyme is inactive toward the acceptorGalβ-O-phenyl. Thus, CE2FT-2 differs from all other 1,2FTspreviously described from animals that all utilize Galβ-O-phenyl.CE2FT-2 is expressed at all stages of worm development, butremarkably, promoter analysis of the CE2FT-2 gene using greenfluorescent protein reporter constructs indicates that the CE2FT-2is expressed exclusively in pharyngeal cells of the worm fromembryo to an adult stage. Because pharyngeal cells are knownto secrete their glycoconjugates to the nematode surface, theseresults may indicate that products of CE2FT-2 contribute tointeractions of the nematode with its environment or are usedas ligands for bacterial attachment. These findings, along withthose on other 1,2FTs in C. elegans, suggest that each 1,2FTin this organism may have a unique acceptor specificity, expressionpattern, and biological function.     

A novel monoantennary complex-type sugar chain found in octopus rhodopsin: occurrence of the Gal{beta}1->4Fuc group linked to the proximal N-acetylglucosaniine residue of the trimannosyl core

The N-linked sugar chains were liberated as oligosaccha-ridesfrom octopus rhodopsin by hydrazinolysis. Most of the oligosaccharideswere neutral, and separated into two major components by columnchromatography using immobilized lectins and Bio-Gel P-4. Structuralanalysis of the one major component by sequential exoglycosidasedigestion, chemical fragmentation in combination with meth-ylationanalysis revealed that it is a nonasaccharide; Man16(Gaiβ13GlcNAcβ12Man13)Manβ14GlcNAcβ14(Galβ14Fuc16)GlcNAcThis structure is quite unique in that a novel galactosylatedfucose residue is attached to the reducing terminal N-acetyl-glucosamineresidue. galactosylated Fuc N-linked sugar chain novel structure octopus rhodopsin     

Identification and characterization of an {alpha}-mannosidase from Trypanosoma cruzi

In this report we describe the first purification and characterizationof the acid -mannosidase from the human parasite Trypanosomacruzi. The purified enzyme exhibited a native mol. wt of 240000 Da and is apparently composed of four identical subunitsof mol. wt 58 000 Da. Each of the four subunits contains oneN-linked high-mannose-type oligosaccharide. The -mannosidaseexhibited a pH optimum of 3.5 and a pI of 5.9. This low pH optimumand the ability of swainsonine to inhibit its activity suggestthat the -mannosidase is a lysosomal enzyme. Antibodies againstthe T.cruzi enzyme did not react with mammalian lysosomal -mannosidaseand, conversely, antibody against a rat lysosomal -mannosidasedid not react with the T.cruzi enzyme. Thus, the T.cruzi enzymeappears to be distinct from its mammalian counterpart. -mannosidase lysosomal enzyme Trypanosoma cruzi     

Biosynthesis, processing, and secretion of {alpha}-L-fucosidase in lymphoid cells from patients with I-cell disease and pseudo-Hurler polydystrophy

N-Acetylglucosamine 1-phosphotransferase is a key enzyme requiredfor synthesis of the mannose 6-phosphate recognition markerthat is used by many newly made acid hydrolases for their transportto lysosomes. It has previously been found that lymphoid cellsfrom patients with I-cell disease and pseudo-Hurler polydystrophyhave nearly normal intracellular and intralysosomal activitiesof several lysosomal acid hydrolases, despite a deficiency ofN-acetylglucosamine 1-phosphotransferase. These results suggestthat lymphoid cells may provide an important system to investigatealternate mechanisms for targeting newly made acid hydrolasesto lysosomes. In the present study, the biosynthesis, processingand secretion of -L-fucosidase in I-cell and pseudoHurler lymphoidcells was used as a model system to study the existence of suchmechanisms. The level of intracellular -L-fucosidase proteinin exponentially growing I-cell or pseudo-Hurler lymphoid cultureswas statistically indistinguishable from the mean of 19 controlcultures. A 1.5 h [³⁵S]methionine pulse experiment showed that-L-fucosidase is initially sythesized by I-cell, pseudo-Hurlerand control cultures as an intracellular form (M_r = 58 000).Companion cultures chased with methionine from 2 to 21 h processedthe enzyme to an intracellular form (M_r = 60 000) and an extracellularform (M_r = 62 000). All enzyme forms were glycoproteins withpolypeptide chains of Mr 52 000. In control cells incubatedwith radioactive inorganic phosphate (³²Pi), <1% of the ³²Piincorporated into -L-fucosidase was associated with carbohydratechains and >99% with polypeptide chains. In I-cell diseaselymphoid cells, the ³²Pi incorporated into -L-fucosidase wasassociated solely with polypeptide chains. A qualitative analysisof phosphorylated residues identified phosphoserine in -L-fucosidasefrom control and I-cell lymphoid cells. Only -L-fucosidase fromcontrol cells contained mannose 6-phosphate. These results areconsistent with the proposal that I-cell lymphoid cells mayuse a mannose 6-phosphate-independent mechanism for routing-L-fucosidase. Additional metabolic labelling experiments demonstratedthe presence of ³²P-labelled -L-fucosidase in both cells andmedium of a control lymphoid culture, but only in cells of anI-cell lymphoid culture. In contrast, -L-fucosidase labelledwith [³⁵S]methionine was found in cells and medium of controland I-cell lymphoid cultures. Since phosphoserine was only foundto occur in intracellular, but not in extracellular -L-fucosidaseof the I-cell culture, we speculate that phosphoserine may beinvolved in intracellular retention of -L-fucosidase in I-celllymphoid cells. -L-fucosidase I-cell disease lymphoid cells phos-phorylation pseudo-Hurler polydystrophy     

Ion exchange HPLC microanalysis of chondroitin sulfate: quantitative derivatization of chondroitin lyase digestion products with 2-aminopyridine

The following corrections pertain to the legends of Figures1 and 4: Disulfated disaccharide standards in Figure 1B are:peak 6, Di_E-PA; peak 7, Di_D-PA. Di_B-PA co-elutes with Di_E-PAunder the chromatographic conditions described (data not shown).Accordingly, in Figure 4H, peak 8 (39.5 min) eluted in the positionof Di_D-PA and not Di_B-PA.     

Mycobacterial arabinan biosynthesis: the use of synthetic arabinoside acceptors in the development of an arabinosyl transfer assay

Information on the biosynthesis of the D-arabinans of the cellwall of Mycobacterium tuberculosis is rapidly emerging, withthe promise of new targets for drug development against tuberculosis.Accordingly, arabinosyl transferase assays were developed utilizingsynthesized [1–¹⁴C]-β-D-arabinofuranosyl-1-monophosphoryldecaprenolas donor and a variety of O- and S-alkyl arabinosides as acceptors.These were: -D-Araf-(15)--D-Araf-O- and -S-alkyl di-arabinosidesand -D-Araf-(15)--D-Araf-(15)--D-Araf-O- and -S-alkyl triarabinosides.Whereas the O- and S-alkyl monosaccharide acceptors were inactive,the O- and S-alkyl disaccharide and the O- and S-alkyl trisaccharideacceptors (<C12) possessed considerable acceptor activity,and the trisaccharide acceptors were more potent than the correspondingdisaccharides. The O-alkyl disaccharide acceptors with a C8alkyl chain were more active than those containing the C6 orC10 analogs. Chemical analysis of the enzymatically synthesizedproducts of the reactions demonstrated that β-D-arabinofuranosyl-1-monophosphoryldecaprenolwas an effective donor for two of the three potential arabinosyltransferases: β-D-arabinofuranosyl-1-monophosphoryldecaprenol:arabinan (15) arabinosyl transferase and β-D-arabinofuranosyl-1-monophosphoryl-decaprenol:arabinan β(12) arabinosyl transferase. The β(12) arabinosyltransferase activity was more in evidence in the presence ofthe O-alkyl disaccharide acceptor, whereas both transferaseswere about equivalent in the presence of the S-alkyl trisaccharideacceptor. The tuberculosis drug, ethambutol, a known mycobacterialarabinosyl transferase inhibitor, was inactive within thesearabinosyl transferase/acceptor based assay systems, supportingother evidence that a third activity, responsible for the formationof 13 linkage, is the drug target. acceptor arabinan biosynthesis glycosyltrans-ferase assay mycobacteria     

TNFalpha-induced insulin resistance in adipocytes as a membrane microdomain disorder: involvement of ganglioside GM3

Membrane microdomains (lipid rafts) are now recognized as criticalfor proper compartmentalization of insulin signaling, but theirrole in the pathogenesis of insulin resistance has not beeninvestigated. Detergent-resistant membrane microdomains (DRMs),isolated in the low-density fractions, are highly enriched incholesterol, glycosphingolipids and various signaling molecules.Tumor necrosis factor alpha (TNF) induces insulin resistancein type 2 diabetes, but its mechanism of action is not fullyunderstood. In other studies we have found a selective increasein the acidic glycosphingolipid ganglioside GM3 in 3T3-L1 adipocytestreated with TNF, suggesting a specific function for GM3. Inthe DRMs from TNF-treated 3T3-L1 adipocytes, GM3 levels weredoubled compared with results in normal adipocytes. Additionally,insulin receptor (IR) accumulations in the DRMs were diminished,whereas caveolin and flotillin levels were unchanged. Furthermore,insulin-dependent IR internalization and intracellular movementof the IR substrate 1(IRS-1) were both greatly suppressed inthe treated cells, leading to an uncoupling of IR–IRS-1signaling. GM3 depletion was able to counteract the TNF-inducedinhibitions of IR internalization and accumulation into DRMs.Together, these findings provide compelling evidence that ininsulin resistance the insulin metabolic signaling defect canbe attributed to a loss of IRs in the microdomains due to anaccumulation of GM3.     

The hypothetical N-glycan charge: a number that characterizes protein glycosylation

The production of recombinant glycoprotein therapeutics requirescharacterization of glycosylation with respect to the lot-to-lotconsistency. Here we introduce the ‘hypothetical N-glycancharge Z’ as a parameter that allows to characterize theprotein glycosylation in a simple, however, efficient manner. The hypothetical N-glycan charge of a given glycoprotein isdeduced from the N-glycan mapping profile obtained via HPAE-PAD.In HPAEC, N-glycans are clearly separated according to theircharge, i.e., their number of sialic acid residues, providingdistinct regions for neutral struc tures as well as for themono- di-, tri, and tetrasialylated N-glycans (Hermentin etal., 1992a). Z is defined as the sum of the products of the respective areas(A) in the asialo, monosialo, disialo, trisialo, tetrasialo,and pentasialo region, each multiplied by the correspondingcharge: Thus, a glycoprotein with mostly C4-4^* structures will provideZ400 (e.g., rhu EPO (CHO), Z=361), a glycoprotein carrying largelyC3-3^* structures will amount to Z300 (e.g., bovine fetuin, Z=290),a glycoprotein with mostly C2-2^* structures will have Z200 (e.g.,human serum transferrin, Z=207, or human plasma AT III, Z=180),and a glycoprotein carrying only high-mannose type or trunkatedstructures will provide Z0 (e.g., bovine pancreas ribonucleaseB, Z=15, and hen ovomucoid, Z=15, respectively). The determination of Z was validated in multiple repetitiveexperiments and proved to be highly accurate and reliable. Zmay therefore be regarded as a new and characteristic parameterfor protein N-glycosylation. high-performance anion-exchange chromatography (HPAEC) pulsed amperometric detection (PAD) HPAE-PAD human plasma recombinant expression CHO BHK interleukin 4-receptor erythropoietin fetuin transferrin thyroglobulin antithrombin ribonuclease ovomucoid orosomucoid ₁-acid glycoprotein fibrinogen ₁ T-glycoprotein ₁-antitrypsin ₁-antichymotrypsin ß₂-glycoprotein I thyroxin-binding globulin ₁B-glycoprotein 8S₃-glycoprotein haptoglobin hydrazinolysis PNGase F consistency clearance in vivo half-life     

Glycosphingolipids in cultured lens epithelial cells from dog and rhesus monkey

Vertebrate lens tissues contain several species of acidic andneutral glycosphingolipids in relatively high amounts. However,the epithelia with capsule from dog and rhesus monkey lenseshad a simpler composition and lower content of glycosphingolipidsthan whole lenses. Gangliosides and neutral glycosphingolipidsin monolayer cultures of lens epithelial cells were also differentfrom those in whole lenses. Although -galactosyl (Gal1-3Ga1-R)or Lewis^x (Galß1-4[Fuc1-3]GlcNAc-R) epitopes werefound in glycosphingolipids from whole lenses, they were notdetected in those from monolayer cultures of dog and rhesusmonkey lens cells. In addition, significant changes in ganglio-seriesgangliosides were induced in monolayer cultures of both cells,where GM3 and GD3 were predominant. Immunofluorescence studyrevealed a characteristic distribution of cell surface gangliosidesin confluent monolayers. These findings suggest that glycosphingolipidsynthesis in lens epithelia is intrinsically different fromthat in cortical and nuclear fibres, and that the expressionof Lewis^x and -galactosyl epitopes in glycosphingolipids appearsto be associated with the differentiation of epithelial cellsto fibres. gangliosides glycosphingolipids lens epithelial cells Lewis^x rhesus monkey.     

Sialylation of intestinal microvillar membranes in newborn, sucking and weaned pigs

Affinity cytochemistry and biochemistry revealed distinctivetemporal changes in the expression of sialylated and compositionallyrelated membrane glycoconjugates in the pig small intestinebetween birth and weaning. The expression of membrane NeuAc2,6moieties, recognized by Sambucus nigra agglutinin-1, was highin newborn pigs, declined slightly during sucking and was verylow in weaned animals. Conversely, the expression of membraneNeuAc2r3 moieties, recognized by Maackia amurensis agglutinin-2,was low at birth but higher in sucking and weaned animals. Histobloodgroup O- and A-antigen expression was first detected in a minorityof sucking pigs, but was evident in all weaned pigs examined.Lactase glycoforms were isolated from solubilized microvillarmembranes of newborn and weaned pigs. The newborn (predominantly2,6-sialylated) and weaned (predominantly 1,2-fucosylated) glycoformsexhibited similar specific activity, indicating that postnatallactase decline in the pig intestine is unrelated to temporalchanges in membrane sialylation and fucosylation. fucosylation lactase lectins intestine sialylation     

Isolation of Subunits of Coupling Factor 1 from Maize and Spinach Chloroplasts and Properties of Combinations of Subunits with ATPase Activity

Subunits (, ß, ) and mixtures of subunits ( ß, , ß , ß ) were isolated without denaturationfrom a chloroform extract of chloroplast coupling factor 1 (CF₁)from maize (Zea mays var. Ushiku 5-4) and from spinach by fastprotein liquid chromatography (FPLC), on an anion-exchange columnof Mono-Q in the presence of n-octylglucoside (OG) and on achromatofocusing column of Mono-P. The ß -subunitcomplex (CF¹ ß ) was the minimum unit required forATPase activity, as was confirmed by the reconstituted complexof ß and subunits. An subunit isolated from maizeinhibited the ATPase activity of CF₁ ß from bothmaize and spinach. CF₁ ß was found to contain anOG-dependent Mg²⁺-ATPase. The ATPase activity of CF₁ ß required divalent cations, such as Mg²⁺ or Mn²⁺, for its expressionin the presence of OG; its optimum pH was 8.0 and it was markedlyinhibited by NaN₃. The enzyme hydrolyzed ATP in prefernece toGTP but not CTP, UTP, ADP, AMP or pNPP. Lineweaver-Burk plotsof its activity were curvilinear in the range of 0.6–0.7mM ATP.Mg²⁺. ¹Present address: Department of Biology, School of Education,Waseda University, Shinjuku-ku, Tokyo, 160 Japan. (Received February 15, 1989; Accepted April 20, 1989)     

Analysis of site-specific N-glycosylation of recombinant Desmodus rotundus salivary plasminogen activator rDSPA{alpha}1 expressed in Chinese hamster ovary cells

The recombinant plasminogen activator (rDSPA1) from the vampirebat Desmodus rotundus is a promising new thrombolytic agentthat exhibits a superior pharmacological profile if comparedto tissue-type plasminogen activator (t-PA) or streptokinase.In the present study the structures of the carbohydrate moietiesat the two N-glycosylation sites (Asn-117, Asn-362) of rDSPAIexpressed in Chinese hamster ovary cells were determined. N-Linkedglycans were enzymatically released from isolated tryptic glycopeptidesby peptide-N⁴-(N-acetyl-ß-glucosaminyl)asparagineamidase F digestion and separated by two-dimensional HPLC. Oligosaccharidestructures were characterized by analysis of carbohydrate compositionand linkage, by mass spectrometry, and by sequence analysisin which the fiuorescently labeled glycans were cleaved withan array of specific exoglycosidases. More than 30 differentoligosaccharides were identified. The results revealed thatAsn-117 carried a mixture of one high-mannose structure (17%of site-specific glycosylation), three hybrid glycans (26%)and predominantly biantennary complex N-glycans (54%). Glycosylationsite Asn-362 was found to comprise complex glycans with biantennary(50%), 2,4- and 2,6-branched triantennary (21%, 11%), and tetraantennarystructures (10%), which were fucosylated at the innermost residueof N-acetylglucosamine. Mainly neutral and monosialylated glycans,and smaller quantities of disialylated glycans, were detectedat both glycosylation sites. Sialic acid was 2-3 linked to galactoseexclusively. As shown in this study the N-glycans attached toAsn-117 of rDSPA1 are more processed during biosynthesis thanthe high-mannose structures linked to Asn-117 of t-PA, to whichthe polypeptide backbone of rDSPA1 is structurally closely related. bat plasminogen activator oligosaccharide analysis rDSPA1 recombinant glycoprotein site-specific N-glycosylation