Expression of β-1,4-galactosyltransferase and suppression of β-N-acetylglucosaminidase to aid synthesis of complex N-glycans in insect Drosophila S2 cells

Previously, we have shown that simple paucimannosidic N-glycan structures in insect Drosophila S2 cells arise mainly because of β-N-acetylglucosaminidase (GlcNAcase) action. Thus, in an earlier report, we suppressed GlcNAcase activity and clearly demonstrated that more complex N-glycans with two terminal N-acetylglucosamine (GlcNAc) residues were then synthesized. In the present work, we investigated the synergistic effects of β-1,4-galactosyltransferase (GalT) expression and GlcNAcase suppression on N-glycan patterns. We found that the N-glycan pattern of human erythropoietin secreted by engineered S2 cells expressing GalT but not GlcNAcase was complete, even in small portion, except for sialylation; the N-glycan structures had two terminal galactose (Gal) residues. When GalT was expressed but GlcNAcase was not inhibited, N-glycan with GlcNAc and Gal at only one branch end was synthesized. Therefore, it will be possible to express a complete functional human glycoprotein in engineered Drosophila S2 cells by suppressing GlcNAcase and co-expressing additional glycosyltransferases of N-glycosylation pathway.     

Expression of the human milk protein β-casein in transgenic potato plants

A 1177 bp cDNA fragment encoding the human milk protein -casein was introduced into Solanum tuberosum cells under control of the auxin-inducible, bidirectional mannopine synthase mas12) promoters using Agrobacterium tumefaciens-mediated leaf disc transformation methods. Antibiotic-resistant plants were regenerated and transformants selected based on luciferase activity carried by the expression vector containing the human -casein cDNA. The presence of human -casein cDNA in the plant genome was detected by PCR and DNA hybridization experiments. Human -casein mRNA was identified in leaf tissues of transgenic plants by RT-PCR analysis. Human - casein was identified in auxin-induced leaf and tuber tissues of transformed potato plants by immunoprecipitation and immunoblot analysis. Human -casein produced in transgenic plants migrated in polyacrylamide gels as a single band with an approximate molecular mass of 30 kDa. Immunoblot experiments identified approximately 0.01% of the total soluble protein of transgenic potato leaf tissue as -casein. The above experiments demonstrate the expression of human milk - casein as part of an edible food plant. These findings open the way for reconstitution of human milk inedible plants for replacement of bovine milk in baby foods for general improvement of infant nutrition, and for prevention of gastric and intestinal diseases in children     

Expression of the β-subunit of β-conglycinin in seeds of transgenic plants

Soybean (Glycine max (L.) Merr.) seeds contain the storage protein -conglycinin, encoded by a multigene family. -Conglycinin consists of three subunits; , , and . A genomic clone for a -subunit of -conglycinin has been characterized by restriction-enzyme mapping and hybrid selected in-vitro translation followed by immunoprecipitation. In order to determine the developmental regulation of this -subunit gene, its expression was studied in seeds of transgenic petunia (Petunia hybrida) and tobacco (Nicotiana tabacum L.) plants. The -subunit expressed in seeds of petunia and tobacco was recognized by anti--conglycinin serum at a relative molecular mass of 53 000, equivalent to that of the native protein. Separation of the petunia-seed proteins by isoelectric focusing followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and immunoblot analysis showed that multiple isoelectric forms of the -subunit were produced. There was approximately a twofold variation in the accumulation of the -subunit protein in the mature seeds of transgenic petunia plants, each containing a single -subunit gene. However, the level of protein accumulation in mature seeds and the amount of -subunit mRNA in developing seeds was not correlated. Accumulation of the -subunit protein in transgenic seeds was less than the -subunit protein that accumulated in transgenic petunia seeds containing a single -subunit gene and less than the amount of the -subunit in mature soybean seeds which contain 8–13 -subunit genes. In transgenic tobacco plants, the accumulation of the -subunit protein in seeds was generally well correlated with the number of genes that were incorporated in the different transformants.Abbreviations kb kilobase - kDa kilodalton - M_r relative molecular mass - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis     

Expression of class III β-tubulin in normal and neoplastic human tissues

 The class III β-tubulin isotype is widely used as a neuronal marker in normal and neoplastic tissues. This isotype was, however, also immunodetected in certain tumours of non-neuronal origin such as squamous cell carcinoma. Using a newly described monoclonal antibody we compared the distribution of class III β-tubulin in normal and neoplastic tissues. The TU-20 mouse monoclonal antibody was prepared against a conserved synthetic peptide from the C-terminus of the human class III β-tubulin isotype, and its specificity was confirmed by immunoblotting, by competitive enzyme-linked immunosorbent assay and by immunofluorescence microscopy on cultured cells. In different cell lines of various origins the antibody reacted only with neuroblastoma Neuro-2a cells and with embryonal carcinoma P19 cells stimulated to neuronal differentiation by retinoic acid. Immunohistochemistry on formaldehyde-fixed paraffin-embedded normal human tissues revealed the presence of the class III β-tubulin isotype in cell bodies and processes of neuronal cells in the peripheral and central nervous systems. In other tissues, this β-tubulin isotype was not immunodetected. Class III β-tubulin was found in all cases of ganglioneuroblastoma, ganglioneuroma, medulloblastoma, neuroblastoma, sympathoblastoma and in one case of teratoma. In contrast, no reactivity was detected in tumours of non-neuronal origin, including 32 cases of squamous cell carcinoma. The results indicate a specific TU-20 epitope expression exclusively in neuronal tissues. The antibody could thus be a useful tool for the probing of class III β-tubulin functions in neurons as well as for immunohistochemical characterisation of tumours of neuronal origin. Accepted: 29 July 1997     

Expression of HLA class I molecules assembled with structural variants of human β2-microglobulin

 Mouse and human β₂-microglobulin (β₂m), which differ by 30% in their primary sequence, give rise to disparate levels of HLA class I heavy chain expression in transfectants of the β₂m-null FO-1 human melanoma cell line, i.e., mouse β₂m directs expression of HLA class I heavy chains that is only ∼20%–30% of that observed for heavy chains assembled with human β₂m. In this report we describe our efforts to better understand the structural basis of this regulatory phenomenon. Initial insight into the importance of the N-terminus of β₂m on HLA expression came from studies with FO-1 cells transfected with chimeric (human X mouse) B2m genes. Chimeric β₂m molecules containing residues 1–69 from human β₂m and residues 70–99 from mouse β₂m (designated HM- β₂m) induced expression of HLA heavy chains to a significantly greater extent (∼80% of level observed with cognate β₂m) than the reverse chimeric construct (designated MH- β₂m) (10%–15% of level observed with cognate β₂m). These data are consistent with the view that the major determinants of HLA class I heavy chain expression map to the portion of the β₂m molecule which forms the four-stranded β-pleated sheet, comprised of S1, S2, S4, and S5, and one strand of the three-stranded sheet (S3). The mapping of class I regulatory sites to the portion of β₂m containing the four-stranded β-pleated sheet supports the interpretation that the heavy chain contact residues on β₂m play the major role in regulating major histocompatibility (MHC) class I expression. To further dissect β₂m-mediated regulation of HLA class I expression, site-directed mutants of β₂m were prepared by conversion of human β₂m to the mouse sequence at individual amino acid positions within the four-stranded and three-stranded β-pleated sheets. Human to mouse amino acid substitutions were made in each divergent residue between positions 1–66, and as controls for COOH-terminal modification, several residues between positions 75 and 94. Cytofluorometry with HLA class I-specific antibodies indicated that cell surface expression of HLA class I heavy chains was largely insensitive to each of the individual substitutions. It is concluded that a combination of divergent residues mapping to positions of heavy chain contact are responsible for the differences observed in MHC class I expression by heterologous forms of β₂m. Received: 18 March 1997 / Revision: 21 April 1997     

Moderate exercise leads to decreased expression of β1 and β2 integrins on leucocytes

 Intravascular adhesion of leucocytes plays a role in the pathogenesis of acute and chronic vascular disease. Regular aerobic exercise seems to protect against vascular disease. Since leucocyte adhesion is mediated by integrins, we tested the hypothesis that surface expression of the integrin adhesive receptors LFA-1 (cd11a/cd18), MAC-1 (cd11b/cd18), gp 150/95 (cd11c/cd18), and VLA-4 (cd29/cd49) is decreased by moderate endurance exercise. Surface expression of integrins was measured by FACS analysis in 19 healthy subjects (16 males, 3 females, 36.6 ± 8.7 years, 177.1 ± 7.5 cm, 70.3 ± 8.1 kg) before and after submaximal exercise (3 h run) using monoclonal antibodies against cd11a, cd11b, cd11c, cd18, cd29 and cd49. In addition, we compared resting integrin expression in this group with a group of sedentary subjects (19 males, 6 females, 29.3 ± 5.3 years). White blood cell count increased from 5300 ml^–1 to 9740 ml^–1 during exercise (P<0.001). Nevertheless, the expression (indicated by the mean log fluorescence) of cd11a (94 ± 24 vs. 78 ± 14) and cd18 (128 ± 31 vs. 102 ± 21) on lymphocytes and of cd11a (104 ± 25 vs. 85 ± 16), cd11c (497 ± 171 vs. 408 ± 126) cd29 (109 ± 16 vs. 89 ± 16), cd49 (69± 8 vs. 54 ± 11) on monocytes was decreased after exercise (all P<0.05). In contrast, integrin expression on granulocytes was not altered by exercise. Comparison of exercising and sedentary subjects showed a significantly decreased expression of integrins in exercising subjects. Our results demonstrate that moderate exercise leads to decreased expression of integrin receptors on leucocytes. This decreased expression of adhesion molecules may result in decreased adhesion and infiltration of leucocytes into the vessel wall. This phenomenon may play a role in the beneficial effect of moderate exercise in prevention of acute and chronic vascular disease. Accepted: 18 March 1997     

Expression analysis of human β-secretase in transgenic tomato fruits

An emerging strategy in biomanufacturing involves using transgenic plants to express recombinant pharmaceutical and industrial proteins in large quantities. β-Site APP cleaving enzyme 1 (β-secretase 1, BACE1) is an enzyme involved in the abnormal production of Aβ42, the major component of senile plaques in Alzheimer's disease (AD). Thus, BACE1 represents a key target protein in the development of new potential drugs to treat Alzheimer's disease. We aimed to develop a tomato-derived recombinant BACE1 (rBACE1) protein to serve as a vaccine antigen that would promote an immune response. We utilized a plant expression cassette, pE8BACE, to optimize BACE1 expression in tomato fruits. Polyemerase chain reaction and Southern blot analyses verified integration of the BACE1 gene into the plant genome. Northern and Western blot analyses demonstrated successful mRNA and protein expression of rBACE1, respectively; the Sensizyme assay kit estimated the expression level of rBACE1 protein at 136 ± 7 ng mg?1 total soluble protein. The tomato-derived rBACE1 retains its activity for a long storage period at cool or room temperature, and is highly resistant to degradation in conditions such as low acidity. Tomato-derived rBACE1 was severely degraded by heat or boiling. The proteolytic activity of tomato-derived rBACE1, confirmed by fluorescence resonance transfer assay, was similar to that of a commercial sample of Escherichia coli-derived BACE1.     

Expression of Pink1 with α-synuclein in the dopaminergic neurons of Drosophila leads to increases in both lifespan and healthspan

Overexpression of the gene coding for α-synuclein has been shown to be an inherited cause of Parkinson disease. Our laboratory has previously co-expressed the parkin and Pink1 genes to rescue α-synuclein-induced phenotypes within a Drosophila model. To further investigate the effect of Pink1 in this model, we performed longevity and behavioral studies using several drivers to express the α-synuclein and Pink1 genes. Our findings showed that overexpression of Pink1 and overexpression of Pink1 with α-synuclein resulted in an increased lifespan when driven with the TH-Gal4 transgene. This increase in longevity was accompanied by an increased healthspan, as measured by mobility over time, suggesting that this is an example of improved functional aging. Our results indicate that, in the dopaminergic cells targeted by TH-Gal4, increased expression of α-synuclein and Pink1 together have a synergistic effect, allowing for enhanced protection and increased survival of the organism.     

Modulation of in vitro activity of zymogenic and mature recombinant human β-secretase by dietary plants

The in vitro activity of human recombinant β-secretase (BACE1) was studied using a fluorogenic substrate based on the cleavage site for the enzyme in the Swedish mutation of amyloid precursor protein. The enzyme was inhibited by a control peptide inhibitor with good repeatability. The enzyme preparation comprised a mixture of pro-enzyme or zymogen and mature enzyme whereby the pro-enzyme sequence forms a 'flap' that can obstruct the binding site. 'Open flap' forms of the zymogen and mature enzyme are active, but the 'closed flap' form of the zymogen is inactive. This mixture of enzyme populations permitted apparent stimulation of enzyme activity under particular conditions, presumably due to facilitating flap-opening of the zymogen. As reported for heparin, enzyme activation was stimulated in the presence of low concentrations of Tween 20 and dimethylsulfoxide before becoming inhibited at higher concentrations. Dietary plant extracts either consistently inhibited (e.g. clove, tea, cinammon) or consistently stimulated (e.g. mushroom, parsley, asparagus) BACE1. Common structural features identified by Fourier transform infrared spectroscopy revealed that BACE1 activity could be explained by differential interactions of either small molecule or polymeric species with mature versus zymogen forms of the enzyme, respectively. Further, enzyme activity could be reversed by mixtures of high and low mass species. These results may have implications for the regulation of β-secretase activity in vivo by either endogenous or possibly dietary factors and for a potential role of BACE1 in stimulation of the production of amyloid beta peptide in sporadic Alzheimer's disease.     

Expression of β-1,4-galactosyltransferase-I affects cellular adhesion in human peripheral blood CD4 T cells

β-1,4-galactosyltransferase-I (β-1,4-GalT-I) has two isoforms that differ only in the length of their cytoplasmic domains. In this study, we found that both the long and short isoforms of β-1,4-GalT-I were expressed in human CD4⁺ T lymphocytes, and localized in the cytoplasm and on the plasma membrane. The expression level of β-1,4-GalT-I was increased in CD4⁺ T cells after stimulation with interleukin (IL)-2, and was further increased after stimulation with IL-2 + IL-12, but decreased after stimulation with IL-2 + IL-4 when compared to stimulation with IL-2 alone. We also demonstrated that the cellular adhesion of CD4⁺ T cells was significantly increased upon cytokine stimulation, and was inhibited by α-lactalbumin, indicating that the increase in adhesion was positively correlated with the expression and activity of long β-1,4-GalT-I. Collectively, the data suggest that β-1,4-GalT-I plays a role in the cellular adhesion of CD4⁺ T cells.     

Cytokinin metabolism in Physcomitrella patens – differences and similarities to higher plants

Cytokinins play an important role in plant development and occur informs with different hormonal activity. As the nucleotide forms of cytokininsare considered to have little or no biological activity, the conversion ofcytokinin bases and ribosides to their nucleotides can contribute to the tuningof cytokinin activity in plant cells. Cytokinin metabolism was monitoredin vivo by feeding either radiolabelledisopentenyladenosine (³H-[9R]iP) or isopentenyladenine(³H-iP) to liquid grown chloronema tissue ofPhyscomitrellapatens (Hedw.) B.S.G. wild type. The riboside ³H-[9R]iPwas rapidly converted to ³H-iP, which was released into the culturemedium. The intracellular concentration of the ³H-iP was twice ashigh as extracellular. From the overall amount of ³H-iP about 95%were present in the medium. Cytokinin nucleotides occurred as tritiated mono-,di- and triphosphates of ³H-[9R]iP. When feeding the base³H-iP however, its main metabolic fate was degradation and nosignificant amounts of radiolabelled cytokinin nucleotides were detected. Forthe cytokinin metabolism in P. patens it is concludedthat,in contrast to higher plants nucleotides are mainly formed from ribosidesvia the adenosine kinase pathway and not byribophosphorylation of the cytokinin base via adeninephosphoribosyltransferase.     

Energetics of ligand recognition and self-association of bovine β-lactoglobulin: differences between variants A and B

An understanding of the interplay between structure and energetics is crucial for the optimization of modern protein engineering techniques. In this context, the study of natural isoforms is a subject of major interest, as it provides the scenario for analyzing mutations that have endured during biological evolution. In this study, we performed a comparative analysis of the ligand-recognition and homodimerization energetics of bovine β-lactoglobulin variants A (βlgA) and B (βlgB). These variants differ by only two amino-acid substitutions: 64th (Asp(A) → Gly(B)), which is fully exposed to the solvent, and 118th (Val(A) → Ala(B)), immersed in the hydrophobic core of the protein. Calorimetric measurements revealed significant enthalpic and entropic differences between the isoforms in both binding processes. A structural comparison suggests that a variation in the conformation of the loop C-D, induced by mutation Asp/Gly, could be responsible for the differences in ligand-binding energetics. While recognition of lauric acid was entropically driven, recognition of sodium dodecyl sulfate was both entropically and enthalpically driven, confirming the key role of the ligand polar moiety. Because of a more favorable enthalpy, the dimerization equilibrium constant of βlgB was larger than that of βlgA at room temperature, while the two dimers became similarly stable at 35 °C. The isoforms exchanged the same number of structural water molecules and protons and shared similar stereochemistry at the dimer interface. MD simulations revealed that the subunits of both variants become more flexible upon dimer formation. It is hypothesized that a larger increase of βlgA mobility could account for the dimerization energetic differences observed.     

Expression of human β-defensin-2 gene induced by CpG-DNA in human B cells

Defensins have a broad range of antimicrobial activity against bacteria, fungi, and viruses. The expression of human β-defensin-2 (hBD-2) is prevalently observed in epithelial cells and is induced by bacterial infection. Here, we have shown that the expression of the hBD-2 gene and release of hBD-2 protein into the medium is up-regulated in response to CpG-DNA in human B cell line RPMI 8226. The induction of hBD-2 was dependent on CG sequence and phosphorothioate backbone-modification. This was also confirmed in primary human lymphocytes. To shed light on the molecular mechanism involved in hBD-2 induction by CpG-DNA, we examined the contribution of the NF-κB signaling pathway in RPMI 8226 cells. Suppression of MyD88 function and inhibition of NF-κB nuclear localization blocked hBD-2 induction. The NF-κB pathway inhibitors also abolished hBD-2 induction. These results may contribute to a better understanding on the therapeutic effects of CpG-DNA against infectious diseases.     

Expression of modified gene encoding functional human α-1-antitrypsin protein in transgenic tomato plants

Transgenic plants offer promising alternative for large scale, sustainable production of safe, functional, recombinant proteins of therapeutic and industrial importance. Here, we report the expression of biologically active human alpha-1-antitrypsin in transgenic tomato plants. The 1,182 bp cDNA sequence of human AAT was strategically designed, modified and synthesized to adopt codon usage pattern of dicot plants, elimination of mRNA destabilizing sequences and modifications around 5' and 3' flanking regions of the gene to achieve high-level regulated expression in dicot plants. The native signal peptide sequence was substituted with modified signal peptide sequence of tobacco (Nicotiana tabacum) pathogenesis related protein PR1a, sweet potato (Ipomoea batatas) sporamineA and with dicot-preferred native signal peptide sequence of AAT gene. A dicot preferred translation initiation context sequence, 38 bp alfalfa mosaic virus untranslated region were incorporated at 5' while an endoplasmic reticulum retention signal (KDEL) was incorporated at 3' end of the gene. The modified gene was synthesized by PCR based method using overlapping oligonucleotides. Tomato plants were genetically engineered by nuclear transformation with Agrobacterium tumefaciens harbouring three different constructs pPAK, pSAK and pNAK having modified AAT gene with different signal peptide sequences under the control of CaMV35S duplicated enhancer promoter. Promising transgenic plants expressing recombinant AAT protein upto 1.55% of total soluble leaf protein has been developed and characterized. Plant-expressed recombinant AAT protein with molecular mass of around approximately 50 kDa was biologically active, showing high specific activity and efficient inhibition of elastase activity. The enzymatic deglycosylation established proper glycosylation of the plant-expressed recombinant AAT protein in contrast to unglycosylated rAAT expressed in E. coli ( approximately 45 kDa). Our results demonstrate feasibility for high-level expression of biologically active, glycosylated human alpha-1-antitrypsin in transgenic tomato plants.     

Effect of p58GTA on β-1,4-galactosyltransferase 1 activity and cell-cycle in human hepatocarcinoma cells

-1,4-galactosyltransferase 1 (1,4-GT 1) is the key enzyme transferring galactose to the terminal N-acetylglucosamine (GlcNAc) forming Gal14GlcNAc structure in the Golgi apparatus. In addition, it also serves as a cell adhesion molecule by recognizing and binding to terminal GlcNAc of glycoconjugates on the adjacent cell surface and matrix through a subpopulation of the enzyme distributed on the cell surface. Transient expression of the p58^GTA protein kinase, which belongs to the p34cdc2-related supergene family, could enhance 1,4-GT 1 total activity in COS cells. In this study, the p58^GTA interaction with 1,4-GT 1 was confirmed using an in vitro assay with the TNT® Coupled Reticulocyte Lysate System. An expression vector containing p58^GTA was stably transfected into 7721 cells, a human hepatocarcinoma cell line, expression was confirmed by Northern and Western blot analyses. The cells transfected with p58^GTA (p58^GTA/7721) contained 1.9 times higher total 1,4-GT 1 activity and 2.6 times higher cell-surface 1,4-GT 1 activity than the mock transfected cells (pcDNA3/7721). However, Ricinus communis agglutinin-I lectin blot analysis revealed that the enhanced 1,4-GT 1 activity did not increase the Gal14GlcNAc groups on most of the membrane proteins in p58^GTA/7721 cells. By flow cytometry analysis, it was found that the p58^GTA/7721 cells were G2/M phase arrested, compared with the pcDNA3/7721 cells. These results suggest that the p58^GTA stable transfection into human hepatocarcinoma cells could enhance the two 1,4-GT 1 subcellular pool activities independently and change its cell-cycle without modifying the -1,4-linked galactose residues on most membrane proteins.     

Expression of human α1 antitrypsin in transgenic sheep

We have recently described the production of large amounts (< or = 65 grams per litre) of enzymatically active human alpha 1 antitrypsin in the milk of transgenic sheep (Wright et al., 1991). Here, we describe in more detail the expression of the human protein in the milk of these animals throughout the lactation period. Human alpha 1 antitrypsin is also found at much lower levels in the plasma of transgenic ewes before, during and after lactation. It is also detected in male plasma at very low levels. We have previously shown human alpha 1 antitrypsin purified from transgenic sheep milk to be indistinguishable from commercially available human plasma derived alpha 1 antitrypsin in terms of gross sugar content and in vitro activity. Here we extend this comparison to more detailed analyses of glycosylation state, amino-terminal sequence, pI value, and molecular weight determination by mass spectrometry.     

Constitutive activation of β-catenin in ameloblasts leads to incisor enamel hypomineralization

Enamel is the hardest tissue with the highest degree of mineralization protecting the dental pulp from injury in vertebrates. The ameloblasts differentiated from ectoderm-derived epithelial cells are a single cell layer and are important for the enamel formation and mineralization. Wnt/β-catenin signaling has been proven to exert an important role in the mineralization of bone, dentin and cementum. Little was known about the regulatory mechanism of Wnt/β-catenin signaling pathway in ameloblasts during amelogenesis, especially in the mineralization of enamel. To investigate the role of β-catenin in ameloblasts, we established Amelx-Cre; β-catenin^?ex3fl/fl (CA-β-catenin) mice, which could constitutive activate β-catenin in ameloblasts. It showed the delayed mineralization and eventual hypomineralization in the incisor enamel of CA-β-catenin mice. Meanwhile, the amelogenesis-related proteinases Mmp20 and Klk4 were decreased in the incisors of CA-β-catenin mice. These data indicated that β-catenin plays an essential role in differentiation and function of ameloblasts during amelogenesis.