Studies on the carbohydrate moiety of α1-acid glycoprotein (orosomucoid) by using alkaline hydrolysis and deamination by nitrous acid

Alkaline hydrolysis followed by deamination with nitrous acid was applied for the first time to a glycoprotein, human plasma alpha(1)-acid glycoprotein (orosomucoid). This procedure, which specifically cleaves the glycosaminidic bonds, yielded well-defined oligosaccharides. The trisaccharides, which were obtained from the native protein, consisted of a sialic acid derivative, galactose and 2,5-anhydromannose. The linkage between galactose and 2,5-anhydromannose is most probably a (1-->4)-glycosidic bond. A hitherto unknown linkage between N-acetylneuraminic acid and galactose was also established, namely a (2-->2)-linkage. The three linkages between sialic acid and galactose described in this paper appear to be about equally resistant to mild acid hydrolysis. The disaccharide that was derived from the desialized glycoprotein consisted of galactose and 2,5-anhydromannose. Evidence was obtained for the presence of a new terminal sialyl-->N-acetylglucosamine disaccharide accounting for approximately 1mol/mol of protein. The presence of this disaccharide may explain the relatively severe requirements for the complete acid hydrolysis of the sialyl residues. The present study indicates that alkaline hydrolysis followed by nitrous acid deamination in conjunction with gas-liquid chromatography will afford relatively rapid determination of the partial structure of the complex carbohydrate moiety of glycoproteins.     

Förster energy-transfer studies between Trp residues of alpha1-acid glycoprotein (orosomucoid) and the glycosylation site of the protein

Energy-transfer studies between Trp residues of alpha(1)-acid glycoprotein and the fluorescent probe Calcofluor White were performed. Calcofluor White interacts with carbohydrate residues of the protein, while the three Trp residues are located at the surface (Trp-160) and in hydrophobic domains of the protein (Trp-25 and Trp-122). Binding of Calcofluor to the protein induces a decrease in the fluorescence intensity of the Trp residues accompanied by an increase of that of Calcofluor White. Efficiency (E) of Trp fluorescence quenching was determined to be equal to 45%, and the F?rster distance R(o), at which the efficiency of energy transfer is 50%, was calculated to be 18.13 A. This low distance and the value of the efficiency clearly indicate that energy transfer between Trp residues and Calcofluor White is weak.     

Glycosylation ofα 1 glycoprotein in septic shock: Changes in degree of branching and in expression of sialyl Lewisx groups

The occurrence of differences in acute-phase response, with respect to concentration and glycosylation of ₁-acid glycoprotein (AGP) was studied in the sera of patients surviving or not from septic shock. Crossed affino-immunoelectrophoresis was used with concanavalin A andAleuria aurantia lectin for the detection of the degree of branching and fucosylation, respectively, and the monoclonal CSLEX-1 for the detection of sialyl Lewis^x (SLeX) groups on AGP. Septic shock apparently induced an acute-phase response as indicated by the increased serum levels and changed glycosylation of AGP. In the survivor group a transient increase in diantennary glycan content was accompanied by a gradually increasing fucosylation and SLeX expression, comparable to those observed in the early phase of an acute-inflammatory response. Remarkably, in the non-survivor group a modest increase in diantennary glycan content was accompanied by a strong elevation of the fucosylation of AGP and the expression of SLeX groups on AGP, typical for the late phase of an acute-phase response. Our results suggest that these changes in glycosylation of AGP can have a prognostic value for the outcome of septic shock.Abbreviations AAL Aleuria aurantia lectin - AGP ₁-acid glycoprotein - CAIE crossed affinoimmunoelectrophoresis - Con A Concanavalin A - HSPC human serum protein calibrator - IL-1 interleukin 1 - IL-6 interleukin 6 - LIF leukaemia inhibitory factor - LPS lipopolysaccharide - SLeX sialyl Lewis^x - TNF tumour necrosis factor     

Distinct glycoforms of human α1-acid glycoprotein have comparable synthesis rates: a [13C]valine-labelling study in healthy humans

Various α₁-acid glycoprotein (AGP) glycoforms are present in plasma differing in extent of branching and/or fucosylation of their 5 N-linked glycans, as well as in concentration. It is assumed that hepatic synthesis determines the relative occurrence of the AGP-glycoforms in plasma, but experimental evidence is lacking. In this study, we have investigated the contribution of fractional synthesis rates to the plasma concentration of AGP-glycoforms that differed in relative occurrence in healthy human plasma. During a [¹³C]valine infusion, AGP was isolated from the plasma of healthy volunteers. Four AGP-glycoforms, differing strongly in plasma concentration were obtained by sequential affinity chromatography over concanavalin-A- and Aleuria aurantia-agarose columns. The incorporation of the [¹³C]valine tracer into the AGP-glycoforms was measured by gas chromatography combustion isotope ratio mass spectrometry. The mean fractional synthesis rates of the four AGP-glycoforms did not differ significantly between each other as well between individuals. The results indicated a renewal of about 15%/day of the plasma pools of each of the AGP-glycoforms. This is in support to the assumption that the differences in plasma concentration of the AGP-glycoforms are a reflection of the state of the hepatic glycosylation process. Published in 2004. This revised version was published online in July 2006 with corrections to the Cover Date.     

Chaperone-like activity of the acute-phase component human serum α1-acid glycoprotein: Inhibition of thermal- and chemical-induced aggregation of various proteins

In vitro chaperone-like activity of the acute-phase component and plasma drug transporter human α₁-acid glycoprotein (AAG) has been shown for the first time. AAG suppressed thermal aggregation of a variety of unrelated enzymatic (e.g., aldolase, catalase, enolase, carbonic anhydrase) and non-enzymatic proteins (β-lactoglobulin, ovotransferrin) and it also prevented dithiothreitol induced aggregation of insulin. The anti-aggregation ability of AAG was abolished/reduced upon drug binding suggesting that protein–protein interactions established between the lipocalin β-barrel fold of AAG and hydrophobic surfaces of the stressed proteins are involved in the chaperone-like activity. The results shed some light on the possible biological function of this enigmatic protein and suggest that besides haptoglobin, clusterin, fibrinogen and α₂-macroglobulin AAG can be considered as a novel member of the extracellular molecular chaperones found in human body fluids.     

Retention behaviour of proteins on poly(vinylimidazole)-copper(II) complexes supported on silica: application to the fractionation of desialylated human α1-acid glycoprotein variants

The retention behaviour of various amino acids, peptides and proteins on poly(vinylimidazole)-Cu(II) complexes supported on silica was investigated. Free amino acids and peptides containing one histidine and in some instances one additional tryptophan residue in their primary structure were found to elute from the supports only after addition of a competing complexing agent to the mobile phase. However, the results obtained with proteins containing metal binding groups suggested that, in addition to the presence of donor-acceptor interactions between the macromolecules and the immobilized metal, other additional (essentially ionic and/or hydrophobic) interactions took place between the proteins and the surrounding of the metal. When donor-acceptor interactions were predominant, proteins were strongly adsorbed on the stationary phase and their elution required the addition of a competing complexing agent in the mobile phase. However, when the binding between the proteins and the supports via donor-acceptor interactions was less favourable, proteins were eluted from the columns without the addition of a competing agent in the mobile phase. With respect to the binding of these proteins, ionic and/or hydrophobic interactions were no longer negligible during the chromatographic process and the retention of the macromolecules by the stationary phase depended on the elution conditions (ionic strength, pH, etc.). These supports were used in the fractionation of the three main genetic variants of desialylated α₁-acid glycoprotein.     

Two-step chromatographic purification of human plasma α1-acid glycoprotein Its application to the purification of rare phenotype samples of the protein and their study by chromatography on immobilized metal chelate affinity adsorbent

α₁-Acid glycoprotein (AAG) or orosomucoid was purified to homogeneity from human plasma by a separate two-step method using chromatography on immobilized Cibacron Blue F3G-A to cross-linked agarose and chromatography on hydroxyapatite. The conditions for the pre-purification of AAG by chromatography on immobilized Cibacron Blue F3G-A were first optimized using different buffer systems with different pH values. The overall yield of the combined techniques was 80% and ca. 12 mg of AAG were purified from an initial total amount of ca. 15 mg in a ca. 40 ml sample of human plasma. This method was applied to the purification of AAG samples corresponding to the three main phenotypes of the protein (F1^s*S/A, F1/A and S/A), from individual human plasma previously phenotyped for AAG. A study by isoelectric focusing with carrier ampholytes showed that the microheterogeneity of the purified F1^s*S/A, F1/A and S/A AAG samples was similar to that of AAG in the corresponding plasma, thus suggesting that no apparent desialylation of the glycoprotein occurred during the purification steps. This method was also applied to the purification of AAG samples corresponding to rare phenotypes of the protein (F1/A¹AD, S/A¹X₀ and F1/A¹C1) and the interactions of these variants with immobilized copper(II) ions were then studied at pH 7, by chromatography on an iminodiacetate Sepharose-Cu(II) gel. It was found that the different variants encoded by the first of the two genes coding for AAG in humans (i.e. the F1 and S variants) interacted non-specifically with the immobilized ligand, whereas those encoded by the second gene of AAG (i.e. the A, AD, X₀ and C1 variants) strongly bound to immobilized Cu(II) ions. These results suggested that chromatography on an immobilized affinity Cu(II) adsorbent could be helpful to distinguish between the respective products of the two highly polymorphic genes which code for human AAG.     

The effect of α1-acid glycoprotein (orosomucoid) on triglyceride metabolism in the nephrotic syndrome

We have identified α₁-acid glycoprotein as a new co-factor in the lipoprotein lipase reaction. We isolated an active form of the compound from nephrotic urine that is effective both $\text{in vitro}$ and $\text{in vivo}$. α₁-acid glycoprotein increased lipolysis 100% in the presence of C-II apolipoprotein in a lipoprotein lipase assay system. Rats with induced nephrotic syndrome showed a decrease in triglyceride clearance. $\text{T}\text{1}\text{2}$ was increased from 14 min to 43 min. The injection of α₁-acid glycoprotein restored the lipid clearance to normal. These findings suggest that elevated plasma triglycerides in human nephrotic patients is the direct result of excessive loss of α₁-acid glycoprotein from plasma into urine. We propose that replacement therapy may be possible.     

Glycosylation of α1-acid glycoprotein in inflammatory disease: analysis by high-pH anion-exchange chromatography and concanavalin A crossed affinity immunoelectrophoresis

High-pH anion-exchange chromatography with pulsed amperometric detection is a highly sensitive technique that can be used for detecting changes in sialylation and fucosylation, as well as different branching patterns of N-linked oligosaccharides in glycoproteins. We examined the N-glycans of α1-acid glycoprotein obtained from twelve patients with various inflammatory conditions with this technique, as well as traditional concanavalin A crossed affinity immunoelectrophoresis. We found the chromatographic profiles of N-glycans in all patients with rheumatoid arthritis to be very similar, but significantly different from normal controls. N-glycans from patients with ulcerative colitis also showed specific alterations in their chromatographic profiles. However, some heterogeneity was found between these patients, perhaps reflecting changes in glycosylation secondary to certain states of the disease, or to medical treatment. We conclude that this technique is useful for detailed mapping of glycosylation changes in α1-acid glycoprotein in clinical samples, and that it may be used to further increase our knowledge about glycosylation changes in response to inflammatory disease. Abbreviations: AC, acute cholangitis; AGP, α1-acid glycoprotein; CAIE, crossed affinity immunoelectrophoresis; Con A, concanavalin A; HPAEC-PAD, high-pH anion-exchange chromatography with pulsed amperometric detection; IEC, ion exchange chromatography; RA, rheumatoid arthritis; SLex, sialyl Lex; UC, ulcerative colitis This revised version was published online in November 2006 with corrections to the Cover Date.     

Simplified purification of equine chorionic gonadotropin (eCG)––an example of the use of magnetic microsorbents for the isolation of glycoproteins from serum

Classical purification of the glycoprotein equine chorionic gonadotropin (eCG) from serum includes pH fractionation with metaphosphoric acid, two ethanol precipitation steps as well as dialysis followed by fixed-bed chromatography. A simplified process requiring only 1/3 of the solvent and improving the yield from 53 to 65% has been developed. The process comprises an ultra-/diafiltration step after the first ethanol precipitation, directly followed by an adsorption/desorption procedure based on magnetic microadsorbents with N,N-diethyl-ammonium functionalization. The process reaches an overall purification factor of eCG of more than 1800 and an average product activity of 1300 IU_ELISA/mg. After adapting the parameters of the fractionation and the type of magnetic microadsorbents, the new concept is likely to be transferable to other serum proteins.     

Total synthesis of a cholinergic neuron-specific ganglioside GT1aα: A high affinity ligand for myelin-associated glycoprotein (MAG)

An efficient total synthesis of a cholinergic neuron-specific ganglioside GT1a (IV³NeuAcIII⁶NeuAcII³NeuAc-GgOse4Cer) is described. The suitably protected sialyl-(26)-gangliotriose (III⁶NeuAc-GgOse3) derivative was glycosylated with the phenyl 2-thioglycoside of sialic acid in the presence of N-iodosuccinimide (NIS) and trimethylsilyl trifluoromethanesulfonate (TMSOTf) in acetonitrile medium, giving the disialogangliotriose (III⁶NeuAcII³NeuAc-GgOse3) derivative which contains both sialyl-(26)-GalNAc and sialyl-(23)-Gal structures (Route I). This pentasaccharide was efficiently synthesized also by the coupling of (methyl 5-acetamido-4,7,8,9-tetra--acetyl-3,5-dideoxy-D-glycero--D-galacto-2-nonulopyranosylonate)-(26)-2-deoxy-3,4--isopropylidene-2-phthalimido-D-galactopyranosyl trichloroacetimidate with 2-(trimethylsilyl)ethyl (methyl 5-acetamido-4,7,8,9-tetra--acetyl-3,5-dideoxy-D-glycero--D-galacto-2-nonulopyranosylonate)-(23)-(2,6-di--benzyl--D-galactopyranosyl)-(14)-2,3,6-tri--benzyl--D-glucopyranoside, followed by conversion of the phthalimido group to the acetamido group (Route II). -Deisopropylidenation and further glycosylation with methyl (methyl 5-acetamido-4,7,8,9-tetra--acetyl-3,5-dideoxy-D-glycero--D-galacto-2-nonulopyranosylonate)-(23)-2,4,6-tri--benzoyl-1-thio--D-galactopyranoside, promoted by dimethyl(methylthio)sulfonium triflate (DMTST), gave the desired trisialogangliotetraose (IV³NeuAcIII⁶NeuAcII³NeuAc-GgOse4) derivative, which was converted stepwise into the title ganglioside GT1a by the introduction of the ceramide part and then complete deprotection. The ganglioside obtained was shown to be identical with the native GT1a on TLC-immunostaining.     

Localization of disulfide bonds in α1-acid glycoprotein and their effect on the ability of the protein to interact with ethidium bromide

α1-Acid glycoprotein (orosomucoid) was purified from the human and murine blood sera using phenol deproteinization. As opposed to the murine protein, the human orosomucoid bound the fluorescent dye ethidium bromide but lost this ability after treatment with β-mercaptoethanol, which breaks disulfide bonds. Disulfide bonds between the Cys²³ and Cys¹⁶⁵ residues of the human orosomucoid and between the Cys⁹¹ and Cys¹⁸⁴ residues of the murine orosomucoid were identified.     

Effects of hormones on the synthesis of α1 (acute-phase) glycoprotein in isolated rat hepatocytes

Hormone effects on the synthesis of alpha(1) (acute-phase) glycoprotein and of albumin by isolated rat hepatocytes in suspension were examined. Insulin, glucagon, cortisol, somatotropin (bovine growth hormone) and tri-iodothyronine were added to achieve physiological concentrations in the medium [Jeejeebhoy, Ho, Greenberg, Phillips, Bruce-Robertson & Sodtke (1975) Biochem. J.146, 141-155]. After periodic additions, there were increases (compared with values for non-hormone-treated suspensions) in the concurrent absolute syntheses of alpha(1) (acute-phase) glycoprotein and of albumin. Trends were detectable after 24h, and significant increases were demonstrated after 48h of incubation (219 and 119% respectively of control values). Manipulation of hormones, by omission from the mixture or by addition of only one or two hormones in various combinations, indicated that for alpha(1) (acute-phase) glycoprotein (which may be representative of some other acute-phase proteins), cortisol was one of the most important hormones involved in the stimulation of synthesis, with glucagon enhancing the effect of cortisol but not being stimulatory by itself. Addition of actinomycin D inhibited this stimulation, suggesting that cortisol might have acted through promotion of RNA synthesis. For albumin, cortisol alone did not stimulate synthesis, but its absence from a hormone mixture significantly decreased synthesis compared with that observed with the complete hormone mixture. Our findings support the possibility that following tissue injury, synthesis of alpha(1) (acute-phase) glycoprotein may be stimulated by the hormonal response to this injury (which response includes elevated blood concentrations of cortisol and glucagon).     

Phospholemman (FXYD1) raises the affinity of the human α1β1 isoform of Na,K-ATPase for Na ions

The human α(1)/His(10)-β(1) isoform of the Na,K-ATPase has been expressed in Pichia pastoris, solubilized in n-dodecyl-β-maltoside, and purified by metal chelate chromatography. The α(1)β(1) complex spontaneously associates in vitro with the detergent-solubilized purified human FXYD1 (phospholemman) expressed in Escherichia coli. It has been confirmed that FXYD1 spontaneously associates in vitro with the α(1)/His(10)-β(1) complex and stabilizes it in an active mode. The functional properties of the α(1)/His(10)-β(1) and α(1)/His(10)-β(1)/FXYD1 complexes have been investigated by fluorescence methods. The electrochromic dye RH421 which monitors binding to and release of ions from the binding sites has been applied in equilibrium titration experiments to determine ion binding affinities and revealed that FXYD1 induces an ～30% increase of the Na(+)-binding affinity in both the E(1) and P-E(2) conformations. By contrast, it does not affect the affinities for K(+) and Rb(+) ions. Phosphorylation induced partial reactions of the enzyme have been studied as backdoor phosphorylation by inorganic phosphate and in kinetic experiments with caged ATP in order to evaluate the ATP-binding affinity and the time constant of the conformational transition, Na(3)E(1)-P → P-E(2)Na(3). No significant differences with or without FXYD1 could be detected. Rate constants of the conformational transitions Rb(2)E(1) → E(2)(Rb(2)) and E(2)(Rb(2)) → Na(3)E(1), investigated with fluorescein-labeled Na,K-ATPase, showed only minor or no effects of FXYD1, respectively. The conclusion from all these experiments is that FXYD1 raises the binding affinity of α(1)β(1) for Na ions, presumably at the third Na-selective binding site. In whole cell expression studies FXYD1 reduces the apparent affinity for Na ions. Possible reasons for the difference from this study using the purified recombinant Na,K-ATPase are discussed.     

Choosing the right type of serum for different applications of human adipose tissue–derived stem cells: influence on proliferation and differentiation abilities

Background aimsAdipose tissue–derived stem cells (ADSCs) are thought to have great potential in regenerative medicine. A xenoprotein-free culture and handling system is desirable. To date, there is only little and contradictory information about the influence of the different types of human serum on ADSC proliferation and differentiation.MethodsFirst, ADSCs were cultured in media containing regular human serum (HS plus) or fetal calf serum (FCS plus) with supplementation of growth factors for three passages. During passage 4, ADSC proliferative activity and adipogenic, osteogenic and chondrogenic differentiation ability was quantified. Second, ADSCs were cultured with three different human sera (regular human serum [HS], human serum from platelet-poor plasma [SPPP] or human serum from platelet-rich plasma [SPRP]) without supplementation of platelet-derived growth factor and assessed accordingly. The growth factor content of the different types of human sera was determined by means of multiplex protein assay and enzyme-linked immunosorbent assay.ResultsThe different sera did not affect ADSC doubling time significantly (P < 0.05). Specific glycerol-3-phosphat-dehydrogenase activity was significantly lower in cultures with SPRP (P < 0.01) compared with the other media compositions. Extracellular calcium deposition was significantly higher in cells differentiated in cultures with HS or SPPP compared with those with SPRP, HS plus or FCS (P < 0.01). Glycosaminoglycan content and collagen 2 were highest in cells cultured with SPRP (P < 0.001).ConclusionsCulturing ADSCs in human serum appears to be a reasonable and efficient alternative compared with FCS. With respect to the outcome of a sighted clinical application, it appears to be feasible to handle the cells in a serum suitable for the intended later use.     

Understanding the effect of different assay formats on agonist parameters: a study using the µ-opioid receptor

The correct interpretation of data is fundamental to the study of G-protein-coupled receptor pharmacology. Often, new assay technologies are assimilated into the drug discovery environment without full consideration of the data generated. In this study, the authors look at μ-opioid receptor agonists in three different assays: (1) [(35)S]GTPγS binding, (2) inhibition of forskolin-stimulated cAMP production, and (3) β-arrestin recruitment. Agonist-concentration effect curves were performed before and after treatment with the irreversible antagonist β-funaltrexamine, and where appropriate, these data were fitted to the operational model of agonism. The Z' value was highest in the β-arrestin assay, followed by the [(35)S]GTPγS and cAMP assays. The cAMP data fitted well to the operational model, as did the [(35)S]GTPγS data, but the [(35)S]GTPγS assay led to an apparent overestimation of K(A) values. However, in the β-arrestin assay, data did not fit the operational model, as treatment with β-funaltrexamine reduced the Emax proportionally to receptor number, with no change in EC(50). In addition, the EC(50) values generated correlated well with affinity values. In conclusion, the β-arrestin recruitment assay does not fit with traditional pharmacological theory but is of great utility as the EC(50) value generated is a good approximation of affinity.