Human embryonal prealbumin-1. Chemical and immunochemical characteristics

General chemical and immunochemical characterization of human embryonic prealbumin-1 (EPA-1) isolated from abortive blood is presented. EPA-1 was found to exist as glycosylated and non-glycosylated forms, which are immunochemically identical. Sugar moiety of the glycosylated form contains residues of fucose (3.0%), mannose (3.2%), galactose (7.8%), N-acetylglucosamine (5.4%), N-acetylgalactosamine (1.2%) and N-acetylneuraminic acid. Using methylation studies, types of bonds between the sugar residues were elucidated.     

Expression and purification of recombinant human alpha-defensins in Escherichia coli

The two-kringle domain of tissue-type plasminogen activator (TK1-2) has been identified as a potent angiogenesis inhibitor by suppressing endothelial cell proliferation, in vivo angiogenesis, and in vivo tumor growth. Escherichia coli-derived, non-glycosylated TK1-2 more potently inhibits in vivo tumor growth, whereas Pichia expression system is more efficient for producing TK1-2 as a soluble form, albeit accompanying N-glycosylation. Therefore, in order to avoid immune reactivity and improve in vivo efficacy, we expressed the non-glycosylated form of TK1-2 in Pichia pastoris and evaluated its activity in vitro. When TK1-2 was mutated at either Asn(117) or Asn(184) by replacing with Gln, the mutated proteins produced the glycosylated form in Pichia, of which sugar moiety could be deleted by endoglycosidase H treatment. When both sites were replaced by Gln, the resulting mutant produced a non-glycosylated protein, NQ-TK1-2. Secreted NQ-TK1-2 was purified from the culture broth by sequential ion exchange chromatography using SP-sepharose, Q-spin, and UNO-S1 column. The purified NQ-TK1-2 migrated as a single protein band of approximately 20 kDa in SDS-PAGE and its mass spectrum showed one major peak of 19,950.71 Da, which is smaller than those of two glycosylated forms of wild type TK1-2. Functionally, the purified NQ-TK1-2 inhibited endothelial cell proliferation and migration stimulated by bFGF and VEGF, respectively. Therefore, the results suggest that non-glycosylated TK1-2 useful for the treatment of cancer can be efficiently produced in Pichia, with retaining its activity.     

Isolation and partial characterization of rat duodenal-gland (Brunner''s-gland) mucus glycoprotein.

A mucus glycoprotein was isolated from the duodenal glands of the rat and purified by repeated density-gradient centrifugation. The characterized glycoprotein is unique to the mucous cells of the duodenal glands and is not present in parts of the small intestine devoid of these glands. The chemical composition of the purified glycoprotein is characteristic for glycoproteins of the mucin-type. Its protein content is relatively high and amount to 35% by weight. No neuraminic acid and little sulphate (2%) is present. Evidence is presented that the native glycoprotein is built up from subunits held together via disulphide bridges in a non-glycosylated region of the protein core.     

Role of carbohydrate moieties in peanut (Arachis hypogaea) peroxidases.

The activities of a cationic (C.PRX) and an anionic peroxidase isolated from peanut (Arachis hypogaea)-cell suspension culture were drastically reduced when they were deglycosylated with glycopeptidase F or oxidized by 10 mM-periodate. In contrast with the controls, the deglycosylated or the oxidized peroxidases were much more susceptible to proteolytic degradation. In radiolabelling experiments with [35S]methionine, the non-glycosylated C.PRX was synthesized in the tunicamycin-treated cultures and secreted into the medium. Examination of the C.PRX polypeptides by SDS/polyacrylamide-gel electrophoresis followed by fluorography showed that the non-glycosylated form had an Mr of approx. 31,000, which is about 78% of that of the glycosylated form. Our results suggest that carbohydrates may not be essential for peroxidase secretion, but that stabilization of the peroxidase molecules and acquisition by these isoenzymes of a catalytically active conformation is linked directly or indirectly to glycosylation.     

Glycosylation motifs that direct arabinogalactan addition to arabinogalactan-proteins

Hydroxyproline (Hyp)-rich glycoproteins (HRGPs) participate in all aspects of plant growth and development. HRGPs are generally highly O-glycosylated through the Hyp residues, which means carbohydrates help define the interactive molecular surface and, hence, HRGP function. The Hyp contiguity hypothesis predicts that contiguous Hyp residues are sites of HRGP arabinosylation, whereas clustered noncontiguous Hyp residues are sites of galactosylation, giving rise to the arabinogalactan heteropolysaccharides that characterize the arabinogalactan-proteins. Early tests of the hypothesis using synthetic genes encoding only clustered noncontiguous Hyp in the sequence (serine [Ser]-Hyp-Ser-Hyp)(n) or contiguous Hyp in the series (Ser-Hyp-Hyp)(n) and (Ser-Hyp-Hyp-Hyp-Hyp)(n) confirmed that arabinogalactan polysaccharide was added only to noncontiguous Hyp, whereas arabinosylation occurred on contiguous Hyp. Here, we extended our tests of the codes that direct arabinogalactan polysaccharide addition to Hyp by building genes encoding the repetitive sequences (alanine [Ala]-proline [Pro]-Ala-Pro)(n), (threonine [Thr]-Pro-Thr-Pro)(n), and (valine [Val]-Pro-Val-Pro)(n), and expressing them in tobacco (Nicotiana tabacum) Bright-Yellow 2 cells as fusion proteins with green fluorescent protein. All of the Pro residues in the (Ala-Pro-Ala-Pro)(n) fusion protein were hydroxylated and consistent with the hypothesis that every Hyp residue was glycosylated with arabinogalactan polysaccharide. In contrast, 20% to 30% of Pro residues remained non-hydroxylated in the (Thr-Pro-Thr-Pro)(n), and (Val-Pro-Val-Pro)(n) fusion proteins. Furthermore, although 50% to 60% of the Hyp residues were glycosylated with arabinogalactan polysaccharide, some remained non-glycosylated or were arabinosylated. These results suggest that the amino acid side chains of flanking residues influence the extent of Pro hydroxylation and Hyp glycosylation and may explain why isolated noncontiguous Hyp in extensins do not acquire an arabinogalactan polysaccharide but are arabinosylated or remain non-glycosylated.     

Peptide amidation: evidence for multiple molecular forms of the amidating enzyme

Amidating enzyme extracted from porcine pituitary was separated into glycosylated and non-glycosylated forms by fractionation on a column of Concanavalin-A Sepharose. The molecular weights of the species present were assessed by HPLC gel exclusion chromatography, which demonstrated that both the glycosylated and the non-glycosylated forms of the enzyme comprise multiple components. The apparent molecular weights of the non-glycosylated forms ranged from approximately 35 kDa to 100 kDa; the glycosylated enzyme contained species with molecular weights ranging from 65 kDa to 135 kDa. Similar proportions of glycosylated to non-glycosylated enzyme (approximately 1:4) were found in the anterior and posterior regions of the pituitary; higher proportions (approximately 1:1) were observed in the thyroid, adrenals and pancreas. The glycosylated forms of the amidating enzyme were shown to exhibit the same mandatory requirement for copper as the non-glycosylated forms, and no differences were seen in respect of their stimulation by dopamine or their pH optima. Both forms catalysed the hydroxylation of glyoxylic acid phenylhydrazone, indicating a common mechanism of action. By these criteria, glycosylation does not affect the activity of the amidating enzyme.     

Involvement of glycan chains in the antigenicity of Rapana thomasiana hemocyanin

Functional unit (FU) RtH2-e from Rapana thomasiana hemocyanin (Hc) was degraded into small fragments with chymotrypsin. The glycopeptides were separated from the non-glycosylated peptides by chromatography on Concanavalin-A-Sepharose and characterized by mass spectrometry. The glycan part of the glycopeptides (all with common peptide stretch of 14 amino acids) consists of the classical trimannosyl-N,N-diacetylchitobiose core for N-glycosylation, predominantly extended with a unique tetrasaccharide that is branched on fucose. In inhibition ELISA experiments, the glycopeptides interfered in the complex formation between FU RtH2-e and rabbit antibodies against Rapana Hc (about 30% of inhibition). The inhibition also was retained after treatment of the glycopeptides with pronase in order to completely destroy the peptide part. The inhibitory effect of the non-glycosylated peptides, on the other hand, was very low. This study thus demonstrates that the glycans attached to FU RtH2-e contribute to the antigenicity of Rapana Hc.     

Cell-free synthesis of mouse mammary tumor virus Pr77 from virion and intracellular mRNA.

Mouse mammary tumor virus (MuMTV) was purified from two cell lines (GR and Mm5MT/c1), and the genomic RNA was isolated and translated in vitro in cell-free systems derived from mouse L cells and rabbit reticulocytes. The major translation product in both systems was a protein with the molecular weight 77,000. Several other products were also detected, among them a 110,000-dalton and in minor amounts a 160,000-dalton protein. All three polypeptides were specifically immunoprecipitated by antiserum raised against the major core protein of MuMTV (p27), but they were not precipitated by antiserum against the virion glycoprotein gp52. Analysis of the in vitro products by tryptic peptide mapping established their relationship to the virion non-glycosylated structural proteins. The 77,000-dalton polypeptide was found to be similar, if not identical, to an analogous precursor isolated from MuMTV-producing cells. Peptide mapping of the 110,000-dalton protein shows that it contains all of the methionine-labeled peptides found in the 77,000-dalton protein plus some additional peptides. We conclude that the products synthesized in vitro from the genomic MuMTV RNA are related to the non-glycosylated virion structural proteins. Polyadenylic acid-containing RNA from MuMTV-producing cells also directed the synthesis of the 77,000-dalton polypeptide in the L-cell system. If this RNA preparation was first fractionated by sucrose gradient centrifugation the 77,000-dalton protein appeared to be synthesized from mRNA with a sedimentation coefficient between 25 and 35S.     

The isolation and characterization of the high-molecular-weight glycoprotein from pig colonic mucus.

1. A high-molecular-weight glycoprotein constitutes over 80% by weight of the total glycoprotein from water-soluble pig colonic mucus. 2. It was isolated from from nucleic acid and non-covalently bound protein by nuclease digestion followed by equilibrium centrifugation in a CsCl gradient. 3. The glycoprotein has the following composition by weight: fucose 10.4%; glucosamine 23.9%; galactosamine 8.3%; sialic acid 9.9%; galactose 20.8%; sulphate 3.0%; protein 13.3%; moisture about 10%. 4. The native glycoprotein has the high mol.wt. of 15 X 10(6). 5. Reduction of the native glycoprotein with 2-mercaptoethanol results in a glycoprotein of mol.wt. 6 X 10(6). 6. Pronase digestion removes 29% of the protein (3% of the glycoprotein) but none of the carbohydrate. 7. The molecular weight of the Pronase-digested glycoprotein is 1.5 X 10(6), which is halved to 0.76 X 10(6) on reduction with 2-mercaptoethanol. 8. The contribution of non-covalent interactions, disulphide bridges and the non-glycosylated peptide core to the quaternary structure of the glycoprotein are discussed and compared with the known structure of pig gastric glycoportein.     

Stimulation and priming of human neutrophils by granulocyte colony-stimulating factor and granulocyte-macrophage colony-stimulating factor: qualitative and quantitative differences.

Granulocyte colony-stimulating factor(G-CSF) and granulocyte-macrophage colony-stimulating factor (GM-CSF) increased neutrophil C3bi-receptor expression and adherence and rapidly (less than 10 min) primed neutrophils to enhanced O2- release and membrane depolarization stimulated by chemotactic peptide. Direct triggering of O2- release in suspended neutrophils was also provoked by GM-CSF but not by G-CSF. GM-CSF-induced O2- release was inhibited by cyclic AMP agonists and cytochalasin B. The biological activity was greater in non-glycosylated GM-CSF than in glycosylated GM-CSF, whereas it was identical in glycosylated and non-glycosylated G-CSFs. Direct stimulation and priming by GM-CSF were consistently greater than those by G-CSF and the combined addition of the optimal concentrations of G-CSF and GM-CSF resulted in the effects of GM-CSF alone. These findings indicate that the effects of G-CSF and GM-CSF on neutrophil functions are qualitatively and quantitatively different from each other.     

Recombinant human interferon-gamma. Differences in glycosylation and proteolytic processing lead to heterogeneity in batch culture.

Recombinant human interferon-gamma (Hu-IFN-gamma) produced by Chinese-hamster ovary (CHO) cells was analysed by immunoprecipitation and SDS/PAGE. Up to twelve molecular-mass variants were secreted by this cell line. Three variants were recovered after enzymic removal of all N-linked oligosaccharides or when glycosylation was inhibited by tunicamycin. The presence of three polypeptide forms rather than a single form suggested that proteolytic cleavage had occurred at two sites in both the glycosylated and non-glycosylated forms. Proteolytically cleaved IFN-gamma was more prevalent in cell lysates than in the secreted glycoprotein. In common with naturally produced IFN-gamma, both fully glycosylated IFN-gamma (asparagine residues 28 and 100 occupied) and partially glycosylated product (thought to be substituted at position Asn28) were secreted. This was deduced from the Mr of the glycosylated products and the relative amounts of sialic acid expressed by each variant. In contrast with naturally produced IFN-gamma, non-glycosylated IFN-gamma was also secreted by the transfected CHO cells. When the cells were grown in batch culture in serum-free medium under pH and dissolved-oxygen control, the proportion of non-glycosylated IFN-gamma increased from 3 to 5% after 3 h, to 30% of the total IFN-gamma present after 195 h. This change in the proportion of glycosylated protein produced was not seen when metabolically labelled IFN-gamma was incubated for 96 h with cell-free supernatant from actively growing CHO cells. This implied that an alteration in intracellular glycosylation was occurring rather than a degradation of oligosaccharide side chains after secretion. The decrease in IFN-gamma glycosylation was independent of the glucose concentration in the culture medium, but could be related to specific growth and IFN-gamma production rates, as these declined steadily after 50 h of culture, in line with the increased production of non-glycosylated IFN-gamma.     

Isolation and characterization of glycosylated and non-glycosylated prolactins from alligator and crocodile.

Two molecular forms of prolactin (PRL), glycosylated and non-glycosylated, were isolated from pituitary glands of two reptiles, alligator and crocodile. The reptilian PRLs were extracted under alkaline conditions from the precipitate obtained after pituitaries were first extracted with 0.25 M sucrose, 1 mM NH4HCO3, pH 6.3. Purification was performed by ion exchange chromatography on DE-52, gel filtration on Sephadex G-75 superfine, and reversed phase high performance liquid chromatography. Two forms of both alligator and crocodile PRL, designated PRLI and PRLII, with molecular weights of 26,000 and 24,000 were isolated. Alligator and crocodile PRLI and PRLII were stained specifically in immunoblots with anti-sea turtle PRL and anti-ostrich PRL. Sequence analysis revealed that both forms of alligator and crocodile PRLs consisted of 199 amino acid residues with a glycosylation consensus sequence (Asn-Ala-Ser) at position 60 in alligator and crocodile PRLs with a molecular weight of 26,000 (PRLI). In contrast, Thr was substituted for Asn at position 60 in the PRLs with a molecular weight of 24,000 (PRLII). The sequences of alligator PRLs differed from crocodile PRLs only in position 134: Val for alligator PRLs and Ile for crocodile PRLs. There is a high degree of structural conservation between the reptilian PRLs isolated in this study and avian PRL; each showed 92% sequence identity with chicken PRL and 89% with turkey PRL.     

Dietary polyphenols decrease glucose uptake by human intestinal Caco-2 cells

The effect of different classes of dietary polyphenols on intestinal glucose uptake was investigated using polarised Caco-2 intestinal cells. Glucose uptake into cells under sodium-dependent conditions was inhibited by flavonoid glycosides and non-glycosylated polyphenols whereas aglycones and phenolic acids were without effect. Under sodium-free conditions, aglycones and non-glycosylated polyphenols inhibited glucose uptake whereas glycosides and phenolic acids were ineffective. These data suggest that aglycones inhibit facilitated glucose uptake whereas glycosides inhibit the active transport of glucose. The non-glycosylated dietary polyphenols appear to exert their effects via steric hindrance, and (-)-epigallochatechingallate, (-)-epichatechingallate and (-)-epigallochatechin are effective against both transporters.     

Extracellular domain of myelin oligodendrocyte glycoprotein (MOG) exhibits solvent-dependent conformational transitions

The conformation of the non-glycosylated recombinant form of the extracellar domain of rat MOG (rMOG(1-125)) dissolved in different solvent conditions was studied by CD spectroscopy. The results show that rMOG(1-125) exhibits a predominantly beta sheet conformation in aqueous buffer solution at pH 7.5 and that this 'beta-form' is stabilized by zwitterionic phospholipids, DPC and LPCP. The alpha helical content of the protein can increase from 9% to up to 20% when TFE or anionic detergent LPAP and SDS are added.     

Bioactivity studies of Huh-7 cells derived human epidermal growth factor expressed in Pichia pastoris

Previously, we have reported cloning of human epidermal growth factor gene from Huh-7 cells and its extracellular expression in Pichia pastoris. The presented work is a detailed report regarding molecular characterization of Huh-7 cells-derived hEGF expressed in Pichia pastoris with special reference to its glycosylation profiling and bioactivity studies. Densitometric scanning of SDS-PAGE separated extracellular proteins from hEGF recombinant Pichia pastoris strain indicated that about 84% of the extracellular proteins were glycosylated. Size exclusion chromatography using Superdex 75 prep grade column was successfully utilized to separate fractions containing glycosylated and non-glycosylated extracellular proteins. In dot blot assay, hEGF was detected in both glycosylated and non-glycosylated fractions. Bioactivity assays revealed that both glycosylated and non-glycosylated fractions were bioactive as determined by cell viability assay. It was also observed that hEGF present in non-glycosylated fraction was relatively more bioactive than hEGF present in glycosylated fraction.     

Determination of Acidic Component of Konjac Mannan

mRNA was isolated from mammary glands of lactating cow by affinity chromatography on poly(U)-Sepharose. The mRNA was heterogeneous on 3% agarose gel electrophoresis in the presence of 6m urea. The molecular weight of the main peak was estimated to be 3.3 x 10⁵. The mRNA was translated in a cell-free protein synthesizing system derived from wheat germ extract, and the translation products were analysed by the indirect immunoprecipitation method using specific antisera for casein components. About 50% of the total protein directed by this mRNA was casein. The relative amounts of α_s1-, β-,and k-casein in the translation products were nearly the same as those in bovine milk. The immunoprecipitates were analysed on sodium dodecyl sulfatepolyacrylamide gradient gel (15~20%) electrophoresis, and their mobilities were compared with those of dephosphorylated and non-glycosylated casein as standard, α_s1- and k Casein synthesized in vitro migrated more slowly than standard caseins, while synthesized β-casein migrated slightly faster than the standard β-casein.     

Respective importance of protein folding and glycosylation in the thermal stability of recombinant feruloyl esterase A

The thermal stability of four molecular forms (native, refolded, glycosylated, non-glycosylated) of feruloyl esterase A (FAEA) was studied. From the most to the least thermo-resistant, the four molecular species ranked as follows: (i) glycosylated form produced native, (ii) non-glycosylated form produced native, (iii) non-glycosylated form produced as inclusion bodies and refolded, and (iv) glycosylated form produced native chemically denatured and then refolded. On the basis of these results and of crystal structure data, we discuss the respective importance of protein folding and glycosylation in the thermal stability of recombinant FAEA.     

Isolation of an acute-phase phosphorylcholine-reactive pentraxin from channel catfish (Ictalurus punctatus).

1. Channel catfish (Ictalurus punctatus) serum contains a protein that precipitates pneumococcal C-polysaccharide (CPS) in a calcium-dependent fashion. 2. The serum titer of this protein follows an acute-phase pattern in catfish injected with turpentine. 3. A non-glycosylated, phosphorylcholine (PC)-reactive protein (PRP) with molecular mass ca 100 kDa, was isolated from channel catfish acute-phase sera by affinity chromatography on PC-Sepharose 4B. 4. Contaminating proteins with molecular masses ca 700 kDa and ca 20 kDa that co-eluted with PRP from PC-Sepharose appear to be aggregated and native low-molecular weight factors (LMFs), respectively. 5. Purified PRP has gamma mobility but in serum samples PRP has gamma-beta mobility. 6. Electron microscopy confirmed that PRP has planar, pentagonal symmetry. 7. The amino terminus of PRP is blocked, but based on comparison of amino-acid compositions channel catfish PRP is clearly similar to human CRP and is most like CRPs from the dogfish (Mustelus canis) and rainbow trout (Oncorhynchus mykiss).     

Comparison of extracellular Escherichia coli AppA phytases expressed in Streptomyces lividans and Pichia pastoris

A phytase gene (appA) from Escherichia coli was cloned into Streptomyces lividans and expressed as an extracellular protein which was then compared with the same enzyme expressed in Pichia pastoris. The phytase expressed in S. lividans was not glycosylated and had a molecular mass of 45 kDa. Compared with the glycosylated phytase expressed in P. pastoris, this non-glycosylated phytase was 25–50% less active (p<0.05) at pH 2 to 3.5 or at 45 and 55 °C, but 50% more active (p<0.05) at 75 °C. The thermo-tolerance of the non-glycosylated phytase was 26 and 48% higher (p<0.05) than that of the glycosylated phytase at 45 and 55 °C, but was 80 and 94% lower (p<0.05) at 65 ° and 75 °C, respectively.     

The role of prostaglandins, cyclic nucleotides and tricarboxylic acids in the regulation of the human placental 20 alpha-hydroxysteroid dehydrogenase in vitro

The in vitro effect of non-steroidal regulators (prostaglandins, cyclic nucleotides and tricarboxylic acids) on the cytoplasmic 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSDH, EC 1.1.1.149) isolated from human early gestational and term placentas was investigated. When prostaglandins (PG) were tested at 100 microM concentrations, an inhibition of the human placental 20 alpha-HSDH by PGE1 (80% inhibition), PGE2 (70%), PGF1 alpha (40%) PGF2 alpha (30%) and 13,14-dihydro-15-keto-PGF2 (PGFM) (20%) was observed. This effect was shown to be dose-dependent. The I50 (concentration at 50% inhibition) was determined for PGE1 and PGE2 to be 11 microM and 38 microM, respectively. No effect on the activity of the 20 alpha-HSDH could be demonstrated for PGI2 and its stable metabolite 6-keto-PGF1 alpha, for the cyclic nucleotides (dbcAMP, dbcGMP) and for the tricarboxylic acids (citrate, ketoglutarate, lactate, malonate, pyruvate and succinate) when added to the incubation at 100 microM concentration. The 20 alpha-HSDH isolated from early gestational and term placentas did not respond differently to the substances tested. These results suggest that prostaglandins can have a direct, dose-dependent effect on the isolated human placental 20 alpha-HSDH without cyclic nucleotides as intermediates and thereby play a role in the regulation of human progesterone synthesis and metabolism during pregnancy and near term.