Functional analysis of the human alpha 2C-C4 adrenergic receptor in insect cells expressed by a luciferase-based baculovirus vector.

A click beetle luciferase-based baculovirus expression vector is described for functional analysis and high level expression of a human alpha 2-adrenergic receptor (alpha 2AR) in Sf9 insect cells. The resultant recombinant baculovirus construct, AcLucGR-alpha 2(C4), was isolated by utilizing the light emitting properties of luciferase and used for abundant expression of the alpha 2C-C4 receptor protein in this lepidopteran insect cell line. A maximal expression of alpha 2-receptors at a level of 1.370 pmol/mg protein was obtained at 48 h after infection as determined by ligand-binding experiments using the alpha 2-receptor antagonist, [3H]rauwolscine. The receptor agonists, noradrenaline and clonidine, displaced the [3H]rauwolscine binding with Ki values 12.3 +/- 1.54 microM and 1.23 +/- 0.11 microM, respectively. The recombinant receptors were functionally intact since the agonists inhibited forskolin-stimulated cAMP production. Here, however, the maximal inhibition was obtained at 36 h after the infection. The results presented here, suggest that the baculovirus expression vector system (BEVS) provides a simple method for abundant expression of functional alpha 2-receptor subtypes. In addition, co-expression of luciferase proved to be useful for screening and isolation of the recombinant baculovirus.

Developments in the use of baculoviruses for the surface display of complex eukaryotic proteins.

The ability to couple genotype to phenotype has proven to be of immense value in systems such as phage display and has allowed genes encoding novel functions to be selected directly from complex libraries. However, the complexity of many eukaryotic proteins places a severe constraint on successful display in Escherichia coli. This restriction could be resolved if a eukaryotic virus could be similarly engineered for display purposes. Preliminary data have suggested that the baculovirus Autographa californica, a multiple nuclear polyhedrosis virus (AcMNPV) is a candidate for eukaryotic virus display because the insertion of peptides into the native virus coat protein, or the expression of foreign proteins as coat protein fusions, results in incorporation of the sequence of interest onto the surface of virus particles. A variety of strategies are currently under investigation to develop further the display capabilities of AcMNPV and to improve the complexity of library that might be accommodated. Several expression vectors for different forms of surface display have been developed and, coupled with improved recombination strategies, represent progress towards a refined tool for use in functional genomics and in vitro protein evolution.

Highly efficient production of GFP and its derivatives in insect cells for visual in vitro applications.

We have generated recombinant baculoviruses for expression of the green fluorescent protein (GFP), a bright GFP mutant (S65T), and a GFP-streptavidin fusion protein in Sf9 and High Five insect cell lines. At 3-4 days post infection, about 30% of the total protein contents was represented by the recombinant protein products, giving the infected insect cells a bright green color which was clearly visible by eye in daylight. The isolated GFP-streptavidin fusion protein, which possessed fluorescence properties identical to those of the native GFP, was capable of binding biotin as shown by using biotinylated beads as well as biotinylated antibody complexes decorating surface expressed GluR-6 glutamate receptor in live and fixed insect cells. The exceptionally high expression levels of GFP and GFP (S65T) and the GFP-streptavidin fusion protein in recombinant baculovirus infected insects should facilitate production of GFP derivatives for in vitro applications.

Identification of biotinylated molecules using a baculovirus-expressed luciferase-streptavidin fusion protein.

A genetic fusion between streptavidin of Streptomyces avidinii and luciferase of Pyrophorus plagiophthalamus was constructed. The fusion protein was produced in the Sf9 insect cell line using the baculovirus expression vector system (BEVS). Sodium dodecyl sulfate polyacrylamide gel electrophoresis of the proteins from cells infected with the recombinant virus, VL1393-LucGR-StreptAv, revealed that the fusion protein migrated with an apparent molecular weight of 75 kDa. Light emission measurements showed that the infected cells produced about 255 mg of the chimeric protein per liter of cell culture (127.5 micrograms/1 x 10(6) cells). Precipitation of the LucGR-StreptAv fusion protein with biotinylated acrylic beads as well as immunoblot analyses using biotinylated immunoglobulins indicated that both fusion moieties of the chimeric protein product were functional with respect to their physical and enzymatic activities.

A baculovirus-expressed fusion protein containing the antibody-binding domain of protein A and insect luciferase.

A fusion construct encoding two antibody-binding sites of protein A from Staphylococcus aureus and click beetle, Pyrophorus plagiophthalamus, luciferase (LucGR) was designed and expressed using the baculovirus system. The construct was inserted under the transcriptional regulation of the polyhedrin gene promoter of the Autographa californica nuclear polyhedrosis virus (AcNPV) and expressed in the insect Spodoperta frugiperda cell line during viral infection. The properties of the resultant chimeric protein product, protA-LucGR, were studied both in vivo and in vitro by using i) luminometry, ii) immunoblot analysis, iii) immunoprecipitation, iv) metabolic labeling procedures and v) luminescent immunoassays. Together, the results clearly demonstrate that the light-emitting properties of the fused luciferase construct remain intact. Further, the antibody-binding domain of protein A retains its activity as it binds to both rabbit and goat as well as human immunoglobulins. Due to the dual biological function of this fusion protein, it should provide a potential reagent within the field of molecular biology and diagnostics.

Synthesis and processing of the rubella virus p110 polyprotein precursor in baculovirus-infected Spodoptera frugiperda cells.

In order to study the processing of rubella virus (RV) structural proteins (capsid protein, of 33 kDa; E2 of 42-47 kDa; and E1 of 58 kDa) in Spodoptera frugiperda (fall armyworm) cells, a 24S cDNA encoding the polyprotein precursor, p110, was inserted under the transcriptional regulation of the polyhedrin gene promoter of the Autographa californica nuclear polyhedrosis virus (AcNPV) and expressed during viral infection. By immunoblot analysis using antibodies directed against whole RV and the individual structural proteins, evidence is presented that polypeptides similar to those synthesized in RV-infected B-Vero cells are expressed in this lepidopteran insect cell line infected with the recombinant baculovirus, VL1392-RV24S. The identity of the recombinant proteins was further confirmed using human convalescent sera. By expressing the recombinant proteins in the presence and absence of tunicamycin, we have further demonstrated that the 24S transcription-translation unit of RV, is expressed and proteolytically cleaved similarly, if not identically, in Sf9 cells as compared to B-Vero cells.

Maturation of IgG avidity to individual rubella virus structural proteins.

BACKGROUND: the structural proteins of rubella virus, the capsid protein C and the envelope glycoproteins E1 and E2 were produced in lepidopteran insect cells using baculovirus expression vectors. The C-terminal ends of the corresponding proteins were fused to a polyhistidine tag for easy and gentle purification by metal ion affinity chromatography. OBJECTIVES: to investigate the maturation of natural and vaccinal IgG avidity against individual authentic and recombinant rubella virus (RV) structural proteins. STUDY DESIGN: the analysis was carried out using a modified immunoblotting technique where the purified baculovirus-expressed proteins were compared with authentic rubella virus proteins. Altogether, 47 well-characterised serum samples from both naturally infected patients and vaccines were studied. RESULTS: after natural RV infection, IgG antibodies specific for the E1 protein were predominant not only in terms of levels, but also in terms of rate and magnitude of avidity maturation. The avidity development of the IgG antibodies was much slower in vaccines than in patients after a natural RV infection. CONCLUSIONS: together, our results indicate that IgG avidity determination in conjunction with immunoblot analysis is useful in the diagnosis of a RV infection. The recombinant proteins showed similar reactivity patterns in the immunoblot analyses as compared with the authentic viral structural proteins, suggesting suitability for serodiagnostics.

Immunoblot analysis of natural and vaccine-induced IgG responses to rubella virus proteins expressed in insect cells.

BACKGROUND: The three structural proteins of rubella virus (RV), the capsid protein C and the envelope glycoproteins E1 and E2, were produced individually in soluble form in Sf9 insect cells using the baculovirus system. All proteins were equipped with a polyhistidine tag at their C-terminal ends to enable gentle purification by metal ion affinity chromatography. In addition, the E1 and E2 proteins were engineered to display the FLAG epitope tag at their N-terminal ends. STUDY DESIGN: The diagnostic potential of the recombinant purified proteins was evaluated by immunoblot and enzyme immuno assays (EIA) using a total of 57 well-characterised serum samples obtained at various time points after natural RV infection, congenital rubella syndrome (CRS), MMR vaccination or from controls with past RV immunity. In addition, acute and convalescent phase serum pools from a total of 20 patients were evaluated. Authentic RV proteins were used as a reference. RESULTS: The recombinant E1 and C proteins were predominant in eliciting the immune response in both postnatal and vaccinal RV infections, being much weaker in the vaccinal ones. The IgG response to the recombinant C protein was very strong after the first month post infection and decreased with time. The immune response against the recombinant E2 protein, however, was generally poor, but notably stronger after congenital infection. Together, the results showed that the individual recombinant protein antigens could be suitable for diagnosis of RV infection and for study of the immune response to rubella vaccination.

A streptavidin-luciferase fusion protein: comparisons and applications.

Luciferases are unique enzymes in being capable of emitting visible light as one of the end-products of their catalysis. Both procaryotic and eucaryotic organisms exist that emit light, and the luciferases from these organisms differ considerably in size as well as chemistry of catalysis. Two main, i.e. most studied groups, are the bacterial luciferases of e.g. Vibrio fisheri, Vibrio harveyi, and Photorhabdus luminescens, responding to FMNH2, long-chain aldehyde and molecular oxygen and the insect luciferases of the fireflies Photinus pyralis and Luciola minengrelica or click beetle Pyrophorus plagiophthalamus, responding to ATP, luciferin and molecular oxygen. An emerging amount of 'new' luciferases from shrimps, fish, jelly fish and overall from marine origin, are finding their way to biotechnological applications. The common feature of these is their ability to produce light within the visible region of the spectrum, i.e. between 450 nm (blue) and 630 nm (red). In this short review, we discuss some of the recent advances on fusion proteins of eucaryotic luciferases and their applications. Special emphasis is placed on a streptavidin-luciferase fusion protein produced by insect cells using the baculovirus expression system.

Immunological reactivity of baculovirus-expressed enterovirus proteins.

In order to study immunological reactivity of individual enterovirus polypeptides and evaluate their usefulness for enterovirus diagnosis, the genes coding for viral structural and nonstructural proteins were expressed using recombinant baculoviruses. A histidine-tailed coxsackievirus B3 (CBV3) VP1 capsid protein was expressed and purified by immobilized metal ion affinity chromatography for EIAs. To elucidate the usefulness of the other CBV3 capsid proteins for immunoassays, recombinant baculovirus expressing the whole CBV3 capsid polyprotein region was constructed. For the detection of a potentially broader spectrum of enteroviruses, the conserved nonstructural P3 region was expressed. The P3 region encodes four nonstructural proteins including a cysteine protease (3C) and an RNA-dependent RNA-polymerase (3D). The 3C polypeptide was shown to be proteolytically active indicating that the baculovirus system is capable of expressing biologically functional enterovirus proteins. Immunoblot analysis detected antibodies against the VP1, 3C and 3D proteins in human serum samples. When the baculovirus-expressed antigens were compared with lysates of enterovirus-infected cells and a synthetic peptide in EIA highly similar results were obtained with recombinant VP1 and the lysate antigens. Although reactive in immunoblots, the P3 encoded proteins were not satisfactory for EIA.

Similar ligand binding in recombinant human alpha 2 C2-adrenoceptors produced in mammalian, insect and yeast cells.

Ligand binding properties were investigated in recombinant human alpha 2C2-adrenoceptors expressed in three different host systems: Shionogi S115 mouse mammary tumour cells, Spodoptera frugiperda Sf9 insect cells and Saccharomyces cerevisiae yeast cells. The expected 43 kDa alpha 2C2 protein was visualized with immunoblotting using a polyclonal alpha 2C2-receptor antibody. [3H]Rauwolscine binding in cell homogenates or membranes (Bmax 3-11 pmol/mg protein; Kd approximately 5.5 nM) was inhibited by prazosin, oxymetazoline, RX821002, chlorpromazine and (-)-noradrenaline with and without the GTP-analogue Gpp(NH)p with similar Ki values in the different host systems. This indicates that alpha 2C2-adrenoceptors retain their binding characteristics irrespective of the host environment.

Two human alpha 2-adrenoceptor subtypes alpha 2A-C10 and alpha 2B-C2 expressed in Sf9 cells couple to transduction pathway resulting in opposite effects on cAMP production.

The baculovirus expression vector system utilizing the strong polyhedrin gene promoter of the Autographa californica nuclear polyhedrosis virus (AcNPV) was used for high level expression of the two alpha 2-adrenoceptor subtypes alpha 2A-C10 and alpha 2B-C2 in Spodoptera frugiperda (Sf-9) insect cells. For rapid screening of recombinant viruses the luciferase gene was expressed under the early ETL-promoter (early transcript large) in the same plasmid. Both receptor subtypes showed the same rank order of binding affinity for four agonists tested: dexmedetomidine > l-medetomidine = clonidine > noradrenaline. For the alpha 2A-C10 subtype, these agonists inhibited forskolin stimulated cAMP production through pertussis toxin sensitive G-proteins. In contrast, for the alpha 2B-C2 subtype the agonists stimulated both basal and forskolin stimulated cAMP production.

Expression and purification of polyhistidine-tagged firefly luciferase in insect cells--a potential alternative for process scale-up.

The coleopteran firefly, Photinus pyralis, luciferase was produced in lepidopteran Trichoplusia ni insect cells using a baculovirus expression vector. The recombinant protein was equipped with a polyhistidine affinity tag at the carboxyl terminus and purified by immobilized metal-ion affinity chromatography in combination with an expanded bed adsorption system. This approach enabled an efficient, one-step purification protocol of a genetically modified luciferase with properties similar to those of the authentic counterpart. According to light emission measurements, the final yield of highly purified protein was 23 mg l(-1) of cell culture. In addition, no specific interaction of interfering substances, such as, ATP, adenylate kinase, nucleoside diphosphokinase, as well as, creatine kinase of the final preparation were identified. Together, the results presented here clearly show that the baculovirus expression system in combination with immobilized metal-ion affinity chromatography is a potential strategy for process scale-up of polyhistidine tagged insect luciferase.

Synthesis of soluble rubella virus spike proteins in two lepidopteran insect cell lines: large scale production of the E1 protein.

The two envelope glycoproteins of rubella virus (RV), E1 of 58 kDa and E2 of 42-47 kDa, were individually expressed in lepidopteran Spodoptera frugiperda as well as in Trichoplusia ni insect cells using baculovirus vectors. The authentic signal sequences of E1 and E2 were replaced with the honeybee melittin signal sequence, allowing efficient entrance into the secretory pathway of the insect cell. In addition, the hydrophobic transmembrane anchors at the carboxyl termini of E1 and E2 proteins were removed to enable secretion rather than maintenance in the cellular membranes. Synthesis of the recombinant proteins in the absence and presence of tunicamycin revealed that both E1 and E2 were glycosylated with apparent molecular weights of 52 kDa and 37 kDa, respectively. Recombinant E2 appeared to be partially secreted, whereas E1 was essentially found inside the infected insect cell. The E1 protein was produced in large scale using a 10-1 bioreactor and serum-free medium (SFM). Purification of the recombinant protein product was performed from cytoplasmic extracts by ammonium sulphate precipitation followed by Concanavalin A affinity chromatography. This type of purified recombinant viral glycoproteins may be useful not only in diagnostic medicine or for immunization, but should enable studies designed to solve the structure of the virus particle.

Mimicking rubella virus particles by using recombinant envelope glycoproteins and liposomes.

The envelope glycoproteins E1 and E2 of rubella virus (RV) were engineered to display the FLAG epitope tag and a polyhistidine tag, at their amino and carboxy termini, respectively. These modified envelope proteins were produced in Sf9 insect cells utilizing baculovirus expression vectors, the E1 and E2 vectors giving rise to protein products of about 58 and 42 kDa, respectively. The recombinant proteins were purified by immobilized metal-ion affinity chromatography and reconstituted into liposomes via their hydrophobic transmembrane anchors. The liposomes were prepared by detergent dialysis in the presence of europium-DTPA chelate, enabling the subsequent measurement of the binding of the resultant proteoliposomes to the antibodies by time resolved fluorescence. RV mimicking proteoliposomes were recognized by antibodies specific for the E1 and E2 proteins, as well as the FLAG epitope tag. This type of virosome may prove useful for studies on the basic biological events of an RV infection or as diagnostic reagents.

Toxicological studies on 4-(hexadecylamino)benzoate (PHB), an agent with anti-atherosclerotic properties, in the rat.

The subacute oral toxicity of sodium 4-(hexadecylamino)benzoate (PHB) was studied in male and female Sprague-Dawley rats. The animals were given PHB 0, 10, 30, 100 or 300 mg/kg body weight as a 3% gum arabic suspension for 13 weeks. During PHB administration all animals on the highest dose level died or were killed because of loss of weight: there were deaths also in the 100 mg/kg group. PHB caused a leukocytopenia which was significant only at the highest dose level. The hemoglobin decreased in the two lowest dose groups. In the highest dose group the histological liver pictures were pathological. Acidophilic bodies and karyorrhexis indicating severe liver cell damage occurred at this level. In the groups receiving 30, 100 and 300 mg/kg there were foci with poorly distinguishable liver cells, mononuclear cells and some neutrophils. PHB had no noticeable toxic effects on the other organs or parameters measured.

Toxicological studies on tienilic acid in rats.

The subacute oral toxicity of tienilic acid in male and female Sprague--Dawley rats has been studied. Animals were given tienilic acid 0, 30, 120 and 480 mg/kg body weight as a 3% gum arabic suspension for 28 days. At 30 mg tienilic acid blood pressure and serum uric acid decreased. At the two higher dose-levels a slight decrease in hemoglobin and an increase in S-GPT was noticed and there was a significant increase in the liver weight and serum magnesium concentration of male rats, while the liver weight of female rats increased only slightly. On microscopic examination, unicellular necrosis of small groups of liver cells was noted, together with focal round-cell infiltration and some stasis of the two higher dose-levels in some animals. Tienilic acid had no noticeable effects on other organs or parameters.

A sensitive model system for in vivo monitoring of baculovirus gene expression in single infected insect cells.

We have developed a fast and sensitive system for the in vivo analysis of gene expression in baculovirus infected lepidopteran insect cells. A recombinant baculovirus containing a luciferase gene from the click beetle, Pyrophorus plagiophthalamus, under transcriptional regulation of the polyhedrin gene promoter of Autographa californica nuclear polyhedrosis virus (AcNPV) was used to infect a Spodoptera frugiperda cell line. Recombinant luciferase could be monitored by luminometry in real-time without disruption of the infected cells, allowing detection of synthesis as early as one hour after infection. The range of luminescence measurements was normally over four orders of magnitude, and the kinetics of luciferase synthesis and the levels of light produced in vivo closely correlated with the expression of polyhedrin in AcNPV infected cells when analyzed by SDS-PAGE. Additionally, single infected cells could be identified by CCD image analysis and flow cytometry.

High-level expression of functional glutamate receptor channels in insect cells.

We have expressed glutamate-gated ion channels in Spodoptera frugiperda Sf21 insect cells using a recombinant baculovirus system. Cells infected with recombinant baculoviruses encoding the alpha-amino-3-hydroxy-5-methylisoxazole-4-propionate (AMPA)-selective glutamate receptor channel subunits GluR-B and GluR-D displayed specific high-affinity [3H]AMPA binding (apparent dissociation constant Kd of 15 nM for GluR-B and 40 nM for GluR-D) with pharmacological profiles typical of AMPA receptors. The binding reached maximal levels (Bmax of 15-30 pmol per mg of membrane protein) by 3-4 days postinfection. AMPA, glutamate and kainate triggered inward currents in GluR expressing cells, indicating assembly of functional homomeric channels. Formation of heteromeric GluR-B/D channels in doubly-infected cells was evident from the diagnostic current-voltage relations of AMPA-activated whole-cell currents. For the solubilization of the receptor, nonionic detergents Triton X-100, n-octyl-D-glucoside and n-dodecylmaltoside proved most effective. Detergent-solubilized receptor preparations were stable, retained their characteristic ligand-binding properties and bound to immobilized wheat germ lectin, demonstrating the glycosylation of insect cell-expressed GluR subunits. The expression level of 300-400 micrograms of receptor protein per liter of suspension culture should facilitate production of glutamate receptors for biochemical and structural studies.

T helper cell-mediated interferon-gamma expression after human parvovirus B19 infection: persisting VP2-specific and transient VP1u-specific activity.

Human parvovirus B19 is a small non-enveloped DNA virus with an icosahedral capsid consisting of proteins of only two species, the major protein VP2 and the minor protein VP1. VP2 is contained within VP1, which has an additional unique portion (VP1u) of 227 amino acids. We determined the ability of eukaryotically expressed parvovirus B19 virus-like particles consisting of VP1 and VP2 in the ratio recommended for vaccine use, or of VP2 alone, to stimulate, in an HLA class II restricted manner, peripheral blood mononuclear cells (PBMC) to proliferate and to secrete interferon gamma (IFN-gamma) and interleukin (IL)-10 cytokines among recently and remotely B19 infected subjects. PBMC reactivity with VP1u was determined specifically with a prokaryotically expressed VP1u antigen. In general, B19-specific IFN-gamma responses were stronger than IL-10 responses in both recent and remote infection; however, IL-10 responses were readily detectable among both groups, with the exception of patients with relapsed or persisting symptoms who showed strikingly low IL-10 responses. Whereas VP1u-specific IFN-gamma responses were very strong among the recently infected subjects, the VP1u-specific IFN-gamma and IL-10 responses were virtually absent among the remotely infected subjects. The disappearance of VP1u-specific IFN-gamma expression is surprising, as B-cell immunity against VP1u is well maintained.