Study on persistent infection of Japanese encephalitis virus Beijing-1 strain in serum-free Sf9 cell cultures

Sf9 cells have obvious advantages for the conventional production technology of vaccine. They are useful tools for high concentration and large-scale cultures. Sf9 cells were grown to maximal concentration, 8 x 10(6) cells/ml in a 500ml spinner flask, with a doubling time at the exponentially growing phase of 24.5 hours, using serum-free media. To explore the ability of Sf9 cells to be infected by the Japanese encephalitis (JE) virus Beijing-1 strain, Sf9 cells were infected with the virus. By 4-5 days post-infection, 10-15% of the Sf9 cells showed cytopathic effect (CPE), from granularity to the formation of syncytia and multinucleated giant cells continuously observed over a period of 35 days. Positive fluorescent reactions were detected in 30-40% of cells infected with the JE virus Beijing-1 strain, and the uninfected Sf9 cells were completely negative. Virus particles, propagated in Sf9 and Vero cells, were concentrated by sedimentation on 40% trehalose cushions by ultracentrifugation, and showed identical patterns of viral morphogenesis. Complete virus particles, 40 to 50 nm in diameter, were observed, and JE virus envelope (E) proteins, at 53 kDa, were found in the western blot analysis to the anti-JE virus E protein monoclonal antibody and reacted as a magenta band in the same position to the glycoprotein staining. To evaluate whether the infectious virus was produced in Sf9 cells inoculated with the JE virus Beijing-1 stain, Sf9 cells were inoculated with the virus, and sample harvested every 5 days. The titers of the JE virus Beijing-1 strain rose from 1.0 x 10(5) to 1.5 x 10(6) pfu/ml. The infected Sf9 cells could be sub-cultured in serum-free medium, with no change in the plaque sizes formed by the JE virus Beijing-1 strain in the plaque assay. It is suggested that the ability of the JE virus Beijing-1 strain to infect Sf9 cells in serum-free media will provide a useful insect cell system, where the JE virus replication, cytopathogenicity and vaccine immunogen can be studied.     

High-Level Synthesis and Fate of Acetylcholine in Baculovirus-Infected Cells: Characterization and Purification of Recombinant Rat Choline Acetyltransferase

Rat choline acetyltransferase (ChAT) has been expressed at a high level in Spodoptera frugiperda Sf9 cells using a baculovirus expression system. A cDNA containing the coding sequence for ChAT was inserted into the transfer vector pAcYM1 to yield the recombinant vector pAcYM1/ChAT. Sf9 cells were then coinfected with pAcYM1/ChAT and the wild-type Autographa californica virus. One recombinant virus particle, containing the cDNA for ChAT, was selected that expressed a protein of 68.5 kDa. Forty hours after infection of cells with the recombinant virus, the specific activity of ChAT in the cytosol was 190 nmol of acetylcholine/min/mg of protein, accounting for approximately 24% of the cell cytosolic proteins as being ChAT. The apparent Km values of the enzyme for choline and acetyl-CoA were 299 and 221 microM, respectively, whereas the respective Vmax values were 10.6 and 11.4 mumol of acetylcholine/min/mg of protein. In addition, analysis of the protein revealed that ChAT is phosphorylated in Sf9 cells. About 0.5 mg of ChAT was obtained from a one-step purification procedure starting with 10(8) infected Sf9 cells. Addition of choline to the incubation medium led to accumulation of high amounts of acetylcholine in the cytosol of the infected cells. The neurotransmitter was not released by Sf9 cells in response to membrane depolarization or on ionophore-mediated calcium entry. Some acetylcholine, which most likely originated from cell death inherent to viral infection, accumulated in the culture medium. The infected insect cells, which synthesize and store neurotransmitter, provide a new and convenient model for analyzing synaptic transmission at the molecular level.     

Bruton酪氨酸激酶在昆虫细胞中表达的初步研究

用杆状病毒表达载体系统表达小鼠Ｂｒｕｔｏｎ酪氨酸激酶（Ｂｒｕｔｏｎｔｙｒｏｓｉｎｅｋｉｎａｓｅ,Ｂｔｋ）．构建重组转染载体时,于Ｂｔｋ起始码的上游插入了一段Ｈ９０２序列．用重组转染载体、苜蓿夜蛾核型多角体病毒线性ＤＮＡ和质脂体共转染Ｓｆ９昆虫细胞,经过对重组杆状病毒三轮扩增后,用Ｈ９０２抗体检测表明,昆虫细胞中Ｂｔｋ的表达已达最高水平．对表达后Ｂｔｋ自身磷酸化检测表明,该激酶具有自身磷酸化活性．从而证实Ｂｔｋ在昆虫细胞中的表达获得了成功     

High-density perfusion culture of insect cells with a biosep ultrasonic filter

The baculovirus/insect cell expression system has provided a vital tool to produce a high level of active proteins for many applications. We have developed a very high-density insect cell perfusion process with an ultrasonic filter as a cell retention device. The separation efficiency of the filter was studied under various operating conditions. A cell density of over 30 million cells/mL was achieved in a controlled perfusion bioreactor and cell viability remained greater than 90%. Sf9 cells from a high-density culture and a spinner culture were infected with two recombinant baculoviruses expressing genes for the production of human chitinase and monocyte-colony inhibition factor. The protein yield on a cell basis from infecting high-density Sf9 cells was the same as or higher than that from the spinner Sf9 culture. Virus production from the high-density culture was similar to that from the spinner culture. The results show that the ultrasonic filter did not affect insect cells' ability to support protein expression and virus production following infection with baculovirus. The potential applications of the high-density perfusion culture for large-scale protein expression from Sf9 cells are also highlighted.     

A GP64-null baculovirus pseudotyped with vesicular stomatitis virus G protein

The Autographa californica multiple nucleopolyhedrovirus (AcMNPV) GP64 protein is an essential virion protein that is involved in both receptor binding and membrane fusion during viral entry. Genetic studies have shown that GP64-null viruses are unable to move from cell to cell and this results from a defect in the assembly and production of budded virions (BV). To further examine requirements for virion budding, we asked whether a GP64-null baculovirus, vAc(64-), could be pseudotyped by introducing a heterologous viral envelope protein (vesicular stomatitis virus G protein [VSV-G]) into its membrane and whether the resulting virus was infectious. To address this question, we generated a stably transfected insect Sf9 cell line (Sf9(VSV-G)) that inducibly expresses the VSV-G protein upon infection with AcMNPV Sf9(VSV-G) and Sf9 cells were infected with vAc(64-), and cells were monitored for infection and for movement of infection from cell to cell. vAc(64-) formed plaques on Sf9(VSV-G) cells but not on Sf9 cells, and plaques formed on Sf9(VSV-G) cells were observed only after prolonged intervals. Passage and amplification of vAc(64-) on Sf9(VSV-G) cells resulted in pseudotyped virus particles that contained the VSV-G protein. Cell-to-cell propagation of vAc(64-) in the G-expressing cells was delayed in comparison to wild-type (wt) AcMNPV, and growth curves showed that pseudotyped vAc(64-) was generated at titers of approximately 10(6) to 10(7) infectious units (IU)/ml, compared with titers of approximately 10(8) IU/ml for wt AcMNPV. Propagation and amplification of pseudotyped vAc(64-) virions in Sf9(VSV-G) cells suggests that the VSV-G protein may either possess the signals necessary for baculovirus BV assembly and budding at the cell surface or may otherwise facilitate production of infectious baculovirus virions. The functional complementation of GP64-null viruses by VSV-G protein was further demonstrated by identification of a vAc(64-)-derived virus that had acquired the G gene through recombination with Sf9(VSV-G) cellular DNA. GP64-null viruses expressing the VSV-G gene were capable of productive infection, replication, and propagation in Sf9 cells.     

The GP64 envelope fusion protein is an essential baculovirus protein required for cell-to-cell transmission of infection.

To demonstrate the essential nature of the baculovirus GP64 envelope fusion protein (GP64 EFP) and to further examine the role of this protein in infection, we inactivated the gp64 efp gene of Autographa californica multicapsid nuclear polyhedrosis virus (AcMNPV) and examined the biological properties of this virus in vivo. To provide GP64 EFP during construction of the recombinant GP64 EFP-null AcMNPV baculovirus, we first generated a stably transfected insect cell line (SfpOP64-6) that constitutively expressed the GP64 EFP of Orgyia pseudotsugata multicapsid nuclear polyhedrosis virus (OpMNPV). The AcMNPV gp64 efp gene was inactivated by inserting the bacterial lacZ gene in frame after codon 131 of the gp64 efp gene. The inactivated gp64 gene was cloned into the AcMNPV viral genome by replacement of the wild-type gp64 efp locus. When propagated in the stably transfected insect cells (Sf9OP64-6 cells), budded virions produced by the recombinant AcMNPV GP64 EFP-null virus (vAc64z) contained OpMNPV GP64 EFP supplied by the Sf9OP64-6 cells. Virions propagated in Sf9OP64-6 cells were capable of infecting wild-type Sf9 cells, and cells infected by vAc64z exhibited a blue phenotype in the presence of X-Gal (5-bromo-4-chloro-3-indolyl-beta-D-galactopyranoside). Using cytochemical staining to detect vAc64z infected cells, we demonstrated that this GP64 EFP-null virus is defective in cell-to-cell propagation in cell culture. Although defective in cell-to-cell propagation, vAc64z produces occlusion bodies and infectious occlusion-derived virions within the nucleus. Occlusion bodies collected from cells infected by vAc64z were infectious to midgut epithelial cells of Trichoplusia ni larvae. However, in contrast to infection by a control virus, infection by vAc64z did not proceed into the hemocoel. Analysis of vAc64z occlusion bodies in a standard neonate droplet feeding assay showed no virus-induced mortality, indicating that occluded virions produced from vAc64z could not initiate a productive (lethal) infection in neonate larvae. Thus, GP64 EFP is an essential virion structural protein that is required for propagation of the budded virus from cell to cell and for systemic infection of the host insect.     

The nonstructural glycoprotein of rotavirus affects intracellular calcium levels.

Rotavirus infection of monkey kidney cells has been reported to result in a significant increase in the concentration of intracellular calcium. This increase in intracellular calcium was associated with viral protein synthesis and cytopathic effects in infected cells. We tested the effect of individual rotavirus proteins on intracellular calcium concentrations in insect Spodoptera frugiperda (Sf9) cells. Insect cells were infected with wild-type baculovirus or baculovirus recombinants that contained an individual rotavirus gene. The cells were harvested at different times postinfection, and the intracellular calcium concentration was measured by using fura-2 as a fluorescent calcium indicator. We found that the concentration of intracellular calcium was increased nearly fivefold in infected Sf9 cells that expressed the nonstructural glycoprotein (NSP4) of group A rotavirus, and this increase in intracellular calcium concentration coincided with NSP4 expression. A similar result was observed in insect cells expressing NSP4 from a group B rotavirus, suggesting the conservation of this function among rotavirus groups. Expression of the other 10 rotavirus proteins or of wild-type baculovirus proteins in Sf9 cells did not significantly increase intracellular calcium levels. These results suggest that the nonstructural glycoprotein NSP4 is responsible for the increase in cytosolic calcium observed in rotavirus-infected cells.     

Use of flow cytometry to monitor infection and recombinant human alpha-1,3/4 fucosyltransferase production in baculovirus infected Sf9 cell cultures

This paper describes the setup and the use of a flow cytometric method for monitoring Sf9 insect cell infection by a recombinant baculovirus expressing the human alpha1,3/4 fucosyltransferase Fuc-TIII. Using side scattered light coupled to green fluorescence detection after immunolabeling of the recombinant protein, this method made it possible to monitor baculovirus infection of Sf9 cells grown in batch cultures and infected at different cell densities and multiplicities of infection. The method was able to precisely assess the extent of infection of the insect cells from 60 h postinfection. In asynchronously infected Sf9 cell cultures, the two-step infection process (primary and secondary infection) was well-characterized using this technique. Finally, a reduced sensitivity to baculovirus infection was observed for cells infected at the end of the growth phase compared to the cells infected during exponential growth phase.     

N-terminal amino acid sequences of the polyoma middle-size T antigen are important for protein kinase activity and cell transformation.

We constructed deletion mutations which removed N-terminal coding sequences of various lengths from a cloned polyoma middle-size T antigen (MT antigen) gene. We introduced the MT antigen genes into a simian virus 40 expression vector so that they were expressed at high levels under the control of the simian virus 40 late promoter in COS-1 cells. The deletion mutant genes synthesized truncated MT antigens whose size was consistent with the deletion of either 70 or 106 amino acids from N termini, owing to initiation of translation at internal methionine codons in the MT antigen-coding region. The truncated MT antigens were found in cell membrane fractions but failed to show MT antigen-associated protein kinase activity. The cloned deletion mutant DNAs failed to transform rat F2408 or mouse NIH 3T3 cells. Therefore, N-terminal amino acid sequences of the polyoma MT antigen, as well as C-terminal sequences, are important for protein kinase activity and cell transformation.     

Purification of pancreatic cholesterol esterase expressed in recombinant baculovirus-infected Sf9 cells.

A cDNA clone encoding the entire coding sequence of rat pancreatic cholesterol esterase (bile salt-stimulated lipase) was subcloned into the Baculovirus transfer vector pVL1392 and used to co-transfect Spodoptera frugiperda (Sf9) insect cells with wild-type Autographa californica nuclear polyhedrosis virus (AcNPV) DNA. Two recombinant proteins (M(r) 74 kDa and 64 kDa) reactive with anti-cholesterol esterase IgG were produced and secreted by the infected Sf9 cells in large quantities in a time-dependent manner. The 74-kDa protein was detectable in the cultured medium at the second day post-infection and increased progressively, reaching a level of 50 micrograms/ml of culture medium after 8 days. Amino-terminal sequencing of this recombinant protein showed that the signal peptide of cholesterol esterase was correctly cleaved, resulting in the production of mature protein. The 64-kDa recombinant protein was not detected in the medium until Day 5 post-infection and accumulated to a level of 25 micrograms/ml at Day 8. Both the 74- and the 64-kDa cholesterol esterases were biologically active and hydrolyzed the artificial substrate p-nitrophenyl butyrate. Results of this study demonstrated that Baculovirus-infected Sf9 cells can be used for high-level expression of pancreatic cholesterol esterase. The recombinant enzyme will be useful for further characterization of this protein.     

Production of recombinant proteins by baculovirus-infected gypsy moth cells.

An experimental study was undertaken to evaluate alternative insect cell lines to Sf9 [from Spodoptera frugiperda (fall armyworm)] for the production of recombinant proteins. Insect cell lines from two different organisms were considered: IPLB-LdEIta (LdEIta) from Lymantria dispar (gypsy moth) and IPLB-HvT1 (HvT1) from Heliothis virescens (tobacco budworm). Both LdEIta and HvT1 produced higher total activity levels of recombinant beta-galactosidase in monolayer culture than Sf9 after infection with the Autographa californica nuclear polyhedrosis virus (AcMNPV). However, only LdEIta generated a product yield (activity per milligram of total protein) which exceeded that of Sf9 (by 25%), so its growth and production characteristics were investigated in depth. LdEIta generated production levels and yields of a recombinant rotaviral protein, VP4, which exceeded those of Sf9 by 84 and 38%, respectively. In suspension culture, the LdEIta cells grew as aggregates with a doubling time several hours longer than Sf9, but the recombinant product yields of LdEIta were still higher than Sf9 by 38% in this culture environment. beta-Galactosidase expression rates and cell death rates suggested that the difference in productivity between the two hosts was due to the ability of LdEIta to survive the baculovirus infection and produce recombinant proteins longer than Sf9. The presence of LdEIta aggregates in suspension culture may be used as a method to separate live cells from dead cells, labile product, and spent medium in recombinant protein production processes.     

Expression of functional G protein beta gamma dimers of defined subunit composition using a baculovirus expression system.

The 36-kDa beta 1, 35-kDa beta 2, and 6.5-kDa gamma 2 subunits of the heterotrimeric guanine nucleotide-binding proteins have been overexpressed in Sf9 cells using a baculovirus expression system. The gamma 2 subunit expressed in Sf9 cells incorporated label derived from [3H]mevalonate and is therefore likely to be isoprenylated, as is its mammalian counterpart. Extracts of Sf9 cells doubly infected with viruses encoding a beta subunit and viruses encoding a gamma subunit are active in promoting the pertussis toxin-catalyzed ADP-ribosylation of a G protein alpha subunit. However, extracts from Sf9 cells singly infected with viruses encoding either a beta or gamma subunit are not active in this assay. Results demonstrate utility of the insect/baculovirus system for expressing G protein beta gamma subunits of defined composition.     

Virus‐like particle of Macrobrachium rosenbergii nodavirus produced in Spodoptera frugiperda (Sf9) cells is distinctive from that produced in Escherichia coli

Macrobrachium rosenbergii nodavirus (MrNV) is a virus native to giant freshwater prawn. Recombinant MrNV capsid protein has been produced in Escherichia coli, which self‐assembled into virus‐like particles (VLPs). However, this recombinant protein is unstable, degrading and forming heterogenous VLPs. In this study, MrNV capsid protein was produced in insect Spodoptera frugiperda (Sf9) cells through a baculovirus system. Dynamic light scattering (DLS) and transmission electron microscopy (TEM) revealed that the recombinant protein produced by the insect cells self‐assembled into highly stable, homogenous VLPs each of approximately 40 nm in diameter. Enzyme‐linked immunosorbent assay (ELISA) showed that the VLPs produced in Sf9 cells were highly antigenic and comparable to those produced in E. coli. In addition, the Sf9 produced VLPs were highly stable across a wide pH range (2–12). Interestingly, the Sf9 produced VLPs contained DNA of approximately 48 kilo base pairs and RNA molecules. This study is the first report on the production and characterization of MrNV VLPs produced in a eukaryotic system. The MrNV VLPs produced in Sf9 cells were about 10 nm bigger and had a uniform morphology compared with the VLPs produced in E. coli. The insect cell production system provides a good source of MrNV VLPs for structural and immunological studies as well as for host–pathogen interaction studies. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 33:549–557, 2017     

庚型肝炎病毒包膜糖蛋白E2基因在昆虫细胞中的表达

用ＰＣＲ扩增出ＨＧＶＥ２全基因,克隆进杆状病毒表达载体ｐＦＡＳＴＢＡＣＨＴａ中,构建成重组转座载体ｐＦＡＳＴＢＡＣＥ２,转化ＤＨ１０ＢＡＣ大肠杆菌感受态细胞,筛选阳性菌落,抽提大分子质粒ＤＮＡ,获得含ＨＧＶＥ２基因的重组杆状病毒穿梭载体,转染昆虫草地夜蛾Ｓｆ９细胞,出现细胞病变后,收集含有重组病毒颗粒的培养上清,重新感染草地夜蛾Ｓｆ９单层细胞及甜菜夜蛾幼虫,分别收集Ｓｆ９细胞和甜菜夜蛾幼虫体内的血淋巴细胞,进行１２％ＳＤＳ聚丙烯酰胺凝胶电泳,可见表达的融合蛋白带,经亲和层析进行蛋白纯化,用ＥＬＩＳＡ方法检测各类血清标本,初步研究ＨＧＶＥ２糖蛋白的抗原性     

Visualization of polyoma virus-specific CD8+ T cells in vivo during infection and tumor rejection.

T cells are critical for clearing infection and preventing tumors induced by polyoma virus, a natural murine papovavirus. We previously identified the immunodominant epitope for polyoma virus-specific CTL in tumor-resistant H-2k mice as the Dk-restricted peptide, MT389-397, derived from the polyoma middle T oncoprotein. In this study, we developed tetrameric Dk complexes containing the MT389-397 peptide to directly visualize and enumerate MT389-397-specific CTL during polyoma virus infection. We found that Dk/MT389 tetramer+CD8+ T cells undergo a massive expansion during primary infection such that by day 7 postinfection these Ag-specific CD8+ T cells constitute approximately 20% of the total and approximately 40% of the activated CD8+ T cells in the spleen. This expansion of Dk/MT389 tetramer+CD8+ T cells parallels the emergence of MT389-397-specific ex vivo cytolytic activity and clearance of polyoma virus. Notably, Dk/MT389 tetramer+CD8+ T cells are maintained in memory at very high levels. The frequencies of Dk/MT389 tetramer+CD8+ effector and memory T cells in vivo match those of CD8+ T cells producing intracellular IFN-gamma after 6-h in vitro stimulation by MT389-397 peptide. Consistent with preferential Vbeta6 expression by MT389-397-specific CD8+CTL lines and clones, Dk/MT389 tetramer+CD8+ T cells exhibit biased expression of this Vbeta gene segment. Finally, we show that Dk/MT389 tetramer+CD8+ T cells efficiently infiltrate a polyoma tumor challenge to virus-immune mice. Taken together, these findings strongly implicate virus-induced MT389-397-specific CD8+ T cells as essential effectors in eliminating polyoma-infected and polyoma-transformed cells in vivo.     

汉坦病毒H8205株G1P基因片段重组杆状病毒表达载体的构建及表达

将汉坦病毒H8205株G1P基因的保守序列(约1000bp)作为目的基因插入到BactoBac杆状病毒表达系统的pFastBacHTb供体质粒中,利用Tn7转座子同BacmidDNA同源重组,获得了含目的基因片段的重组杆状病毒DNA,并利用其转染Sf9昆虫细胞,72h后收集细胞悬液,再用该悬液侵染Sf9昆虫细胞,48h后收获病毒.采用IFA分析收获的产物,观察到了特异性的荧光,并且采用SDSPAGE和Western印迹也获得了与预期一致的结果.证明感染后的Sf9昆虫细胞所表达的蛋白中含有能与抗汉坦病毒H8205株多克隆抗体特异性结合目的蛋白.研究表明,采用杆状病毒表达系统可以成功表达出汉坦病毒H8205株包膜糖蛋白G1基因片段,为开发适合的以G1P为抗原的汉坦病毒诊断试剂进行了前期的探索.     

Absence of G(i) proteins in the Sf9 insect cell. Characterization of the uncoupled recombinant N-formyl peptide receptor.

We investigated the interaction of the N-formyl peptide receptor (NFPR) with G proteins in infected Sf9 insect cells expressing the recombinant NFPR. Recombinant receptor expression of up to 27 pmol/mg protein was achieved in these cells. The receptor was recognized by an antiserum raised against an NFPR carboxyl-terminal peptide, and displayed specific and saturable binding of the formyl peptide ligand fMet-Leu-[3H]Phe. Scatchard analysis of the binding data yielded a dissociation constant of approximately 62 nM, a binding affinity of 60- to 120-fold lower than that of the high affinity sites in neutrophils and in transfected mammalian cell lines expressing the NFPR. That this low binding affinity was due to a lack of receptor coupling to G protein was suggested by the failure of guanine nucleotides to regulate receptor affinity and by the lack of formyl peptide-stimulated GTPase activity in these cells. Furthermore, immunoblotting with an anti-G(i) antibody and ADP-ribosylation experiments indicated that the approximately 40-kDa G(i) alpha subunit, which couples to the NFPR in neutrophils, is not present in Sf9 cell membranes. Thus, the current study provides for the first time evidence that a major G protein is absent in the Sf9 insect cells. Potential applications of the Sf9 system for in vitro reconstitution of the NFPR-G protein interaction are discussed.     

杆状病毒AcMNPV p48基因在昆虫细胞中的表达

【目的】p48(ac103)基因在昆虫杆状病毒中高度保守,暗示其具有重要的生物学功能。为了研究该基因的功能,我们首先对该基因的表达特征进行描述。【方法】以杆状病毒代表种——苜蓿银纹夜蛾核型多角体病毒(Autographa californica multiple nucleopolyhedrovirus,AcMNPV)的p48基因为研究对象,利用Bac-to-Bac杆状病毒表达载体系统分别构建了在P48蛋白N-端和C-端融合HA-标签,并且携带绿色荧光蛋白基因和多角体蛋白基因的重组Bacmid。将重组Bacmid转染Sf9细胞,收集含病毒的上清去感染Sf9细胞,在感染后不同时间点收集细胞进行SDS-PAGE电泳,利用商业化的HA抗体进行Western blot分析以检测融合蛋白在昆虫细胞中的表达情况。【结果】用C-端融合HA-标签的重组病毒感染细胞后12h即可检测到一条43kDa左右、能与HA抗体发生特异性结合的蛋白条带,该特异性蛋白的表达一直持续到病毒感染后96h。从感染后48h起一直到96h,均能检测到另外一条约26kDa的蛋白条带也能与HA抗体发生特异性结合。在N-端融合HA-标签的重组病毒感染的细胞中没有检测到与HA抗体特异结合的蛋白。【结论】结果表明,p48基因是个晚期基因,在病毒感染的晚期表达,并且该蛋白在昆虫细胞中表达时N-端可能被剪切。