Colocalization of Baculovirus IE-1 and Two DNA-Binding Proteins, DBP and LEF-3, to Viral Replication Factories

We have recently identified a DNA-binding protein (DBP) from the baculovirus Bombyx mori nucleopolyhedrovirus (BmNPV) which can destabilize double-stranded DNA (V. S. Mikhailov, A. L. Mikhailova, M. Iwanaga, S. Gomi, and S. Maeda, J. Virol. 72:3107–3116, 1998). DBP was found to be an early gene product that was not present in budded or occlusion-derived virions. In order to characterize the localization of DBP during viral replication, BmNPV-infected BmN cells were examined by immunostaining and confocal microscopy with DBP antibodies. DBP first appeared as diffuse nuclear staining at 4 to 6 h postinfection (p.i.) and then localized to several specific foci within the nucleus at 6 to 8 h p.i. After the onset of viral DNA replication at around 8 h p.i., these foci began to enlarge and eventually occupied more than half of the nucleus by 14 h p.i. After the termination of viral DNA replication at about 20 h p.i., the DBP-stained regions appeared to break down into approximately 100 small foci within the nucleus. At 8 h p.i., the distribution of DBP as well as that of IE-1 or LEF-3 (two proteins involved in baculovirus DNA replication) overlapped well with that of DNA replication sites labeled with bromodeoxyuridine incorporation. Double-staining experiments with IE-1 and DBP or IE-1 and LEF-3 further confirmed that, between 8 and 14 h p.i., the distribution of IE-1 and LEF-3 overlapped with that of DBP. However, IE-1 localized to the specific foci prior to DBP or LEF-3 at 4 h p.i. In the presence of aphidicolin, an inhibitor of DNA synthesis, immature foci containing IE-1, LEF-3, and DBP were observed by 8 h p.i. However, the subsequent enlargement of these foci was completely suppressed, suggesting that the enlargement depended upon viral DNA replication. At 4 h p.i., the number of IE-1 foci correlated with the multiplicity of infection (MOI) between 0.4 and 10. At higher MOIs (e.g., 50), the number of foci plateaued at around 15. These results suggested that there are about 15 preexisting sites per nucleus which are associated with the initiation of viral DNA replication and assembly of viral DNA replication factories.     

Oligomerization of Baculovirus LEF-11 Is Involved in Viral DNA Replication

We have previously reported that baculovirus Bombyx mori nucleopolyhedrovirus (BmNPV) late expression factor 11 (lef-11) is associated with viral DNA replication and have demonstrated that it potentially interacts with itself; however, whether LEF-11 forms oligomers and the impact of LEF-11 oligomerization on viral function have not been substantiated. In this study, we first demonstrated that LEF-11 is capable of forming oligomers. Additionally, a series of analyses using BmNPV LEF-11 truncation mutants indicated that two distinct domains control LEF-11 oligomerization (aa 42–61 and aa 72–101). LEF-11 truncation constructs were inserted into a lef-11-knockout BmNPV bacmid, which was used to demonstrate that truncated LEF-11 lacking either oligomerization domain abrogates viral DNA replication. Finally, site-directed mutagenesis was used to determine that the conserved hydrophobic residues Y58&I59 (representing Y58 and I59), I85 and L88&L89 (representing L88 and L89) are required for LEF-11 oligomerization and viral DNA replication. Collectively, these data indicate that BmNPV LEF-11 oligomerization influences viral DNA replication.     

Bombyx mori Nucleopolyhedrovirus Encodes a DNA-Binding Protein Capable of Destabilizing Duplex DNA

A DNA-binding protein (designated DBP) with an apparent molecular mass of 38 kDa was purified to homogeneity from BmN cells (derived from Bombyx mori) infected with the B. mori nucleopolyhedrovirus (BmNPV). Six peptides obtained after digestion of the isolated protein with Achromobacter protease I were partially or completely sequenced. The determined amino acid sequences indicated that DBP was encoded by an open reading frame (ORF16) located at nucleotides (nt) 16189 to 17139 in the BmNPV genome (GenBank accession no. {"type":"entrez-nucleotide","attrs":{"text":"L33180","term_id":"3745835","term_text":"L33180"}}L33180). This ORF (designated dbp) is a homolog of Autographa californica multicapsid NPV ORF25, whose product has not been identified. BmNPV DBP is predicted to contain 317 amino acids (calculated molecular mass of 36.7 kDa) and to have an isoelectric point of 7.8. DBP showed a tendency to multimerization in the course of purification and was found to bind preferentially to single-stranded DNA. When bound to oligonucleotides, DBP protected them from hydrolysis by phage T4 DNA polymerase-associated 3′→5′ exonuclease. The sizes of the protected fragments indicated that a binding site size for DBP is about 30 nt per protein monomer. DBP, but not BmNPV LEF-3, was capable of unwinding partial DNA duplexes in an in vitro system. This helix-destabilizing ability is consistent with the prediction that DBP functions as a single-stranded DNA binding protein in virus replication.

Nucleopolyhedroviruses (NPVs) have large (80- to 180-kb) circular double-stranded DNA (dsDNA) genomes, which replicate in nuclei of infected cells. Despite the widespread use of NPVs for the expression of foreign genes and their potential for pest control, little is known about the mechanism of their replication and the properties of their replication factors. The most widely studied baculovirus, Autographa californica multicapsid NPV (AcMNPV), has the potential to encode about 150 proteins (3), including factors required for virus DNA replication. The products of nine viral genes (ie-1, ie-2, lef-1, lef-2, lef-3, dnahel, dnapol, p35, and lef-7 or pe-38) are necessary and sufficient for efficient replication of transfected plasmid DNAs containing a putative baculovirus replication origin (16, 22). It is likely that DNA polymerase and DNA helicase, which are encoded by the viral genes dnapol and dnahel, respectively (20, 35), form a core of the virus DNA replication machinery. The roles of other factors are less obvious. Single-stranded DNA binding (SSB) protein function was proposed for the protein LEF-3, which binds specifically single-stranded DNA (ssDNA) (10, 14). However, direct proof for the SSB function of LEF-3 in viral DNA replication is lacking. In addition, SSB function was also suggested for LEF-7 on the basis of its predicted amino acid sequence (22). It was recently demonstrated that LEF-1 forms a complex with LEF-2 and may serve as a DNA primase (9). The function of IE-1, IE-2, and PE-38 may result from their ability to activate in trans expression of other genes required for virus replication. The transactivator IE-1 may also participate in the initiation of DNA replication, due to its ability to bind putative replication origins (7, 13, 17, 33). P35 is an inhibitor of apoptosis and may not be involved directly in DNA replication. Its stimulatory effect in the transient-replication assay may result from inhibition of virus-induced apoptosis in cells transfected with the replication genes. Several genes required for DNA replication (six essential and three stimulatory) were also identified in the genome of Orgyia pseudotsugata NPV (1). Homology of these genes to those required for replication of AcMNPV suggests similar replication mechanisms for the two viruses. The genome organization of the Bombyx mori NPV (BmNPV) closely resembles that of AcMNPV. Nineteen homologs of the AcMNPV late expression factor genes (lef genes) were identified in BmNPV (12). At least three of these, ie-2, lef7, and p35, are not essential for virus DNA replication as demonstrated by deletion analysis (12). Because the daughter DNA molecules synthesized under control of the nine essential viral genes appear to be synthesized as concatemers (16, 22, 31, 32), factors required for maturation of nascent DNA and its further processing are still unknown. Although the nine AcMNPV factors were sufficient for efficient DNA replication in Sf cells, an additional viral gene, designated hcf-1, was essential for replication in TN-368 cells (21), indicating dependence of the transient assay on host cell-specific factors. Few proteins involved in NPV DNA replication have been purified from infected cells and characterized in cell-free systems. Among them are AcMNPV DNA polymerase (28, 37), BmNPV DNA polymerase (27), AcMNPV DNA helicase (19), and AcMNPV LEF-3 (10, 14). Isolation of other replication proteins of NPVs is still anticipated.In this report we describe the purification of a viral DNA-binding protein (designated DBP) from BmNPV-infected cells. DBP binds preferentially to ssDNA and is capable of unwinding duplex DNA. The BmNPV open reading frame (ORF) encoding DBP (dbp gene) is a homolog of AcMNPV ORF25, whose product has not been identified so far.     

The BIR and BIR-like domains of Bombyx mori nucleopolyhedrovirus IAP2 protein are required for efficient viral propagation

The baculovirus Bombyx mori nucleopolyhedrovirus (BmNPV) possesses two genes, iap1 and iap2, which encode inhibitor of apoptosis (IAP) proteins. We previously showed that although both genes are dispensable for viral propagation, iap2 is required for efficient viral propagation in cultured cells. BmNPV IAP2 contains three putative functional domains: a baculovirus IAP repeat (BIR), a BIR-like (BIRL) domain, and a RING finger domain. To identify the domain affecting viral growth, we generated a series of BmNPV bacmids expressing iap2 derivatives lacking one or two domains, or possessing a single amino acid substitution to abolish IAP2 ubiquitin ligase activity. We examined their properties in both cultured cells and B. mori larvae. We found that either the BIR or BIRL domain of IAP2 plays an important role in BmNPV infection, and that the RING finger domain, which is required for ubiquitin ligase activity, does not greatly contribute to BmNPV propagation. This is the first study to identify functional domains of the baculovirus IAP2 protein.     

A Hypothetical Model of Crossing Bombyx mori Nucleopolyhedrovirus through Its Host Midgut Physical Barrier

Bombyx mori nucleopolyhedrovirus (BmNPV) is a primary pathogen of silkworm (B. mori) that causes severe economic losses each year. However, the molecular mechanisms of silkworm-BmNPV interactions, especially the silkworm proteins that can interact with the virus, are still largely unknown. In this study, the total and membrane proteins of silkworm midguts were displayed using one- and two-dimensional electrophoresis. A virus overlay assay was used to detect B. mori proteins that specifically bind to BmNPV particles. Twelve proteins were located and identified using mass spectrometry, and the different expression of the corresponding genes in BmNPV susceptible and resistant silkworm strains also indicated their involvement in BmNPV infection. The 12 proteins are grouped based on their potential roles in viral infection, for example, endocytosis, intracellular transportation, and host responses. Based on these results, we hypothesize the following: I) vacuolar ATP synthase catalytic subunit A and subunit B may be implicated in the process of the membrane fusion of virus and the release of the nucleocapsid into cytoplasm; II) actin, enolase and phosphoglycerate kinase are cytoskeleton associated proteins and may play an important role in BmNPV intracellular transportation; III) mitochondrial prohibitin complex protein 2, ganglioside-induced differentiation-associated protein, calreticulin, regucalcin-like isoform X1 and 60 kDa heat shock protein are involved in cell apoptosis regulation during BmNPV infection in larvae midguts; IV) ribosomal P0 may be associated with BmNPV infection by regulating gene expression of BmNPV; V) arginine kinase has a role in the antiviral activities against BmNPV. Our work should prove informative by providing multiple protein targets and a novel direction to investigate the molecular mechanisms of the interactions between silkworms and BmNPV.     

Dimerization and proper degradation of BmNPV IE2 are required for efficient virus growth in larvae of Bombyx mori (Lepidoptera: Bombycidae)

The baculovirus ie2 gene is one of the immediate early genes, and its product is known to transactivate viral promoters. However, the roles of Bombyx mori nucleopolyhedrovirus (BmNPV) ie2 in insect larvae are poorly understood. Here we investigated the functions of BmNPV IE2 in cultured cells and in insect larvae using two mutant viruses, BmIE2D and BmIE2CS. BmIE2D lacks the IE2 C-terminal coiled-coil domain that is required for IE2 dimerization. The other mutant BmIE2CS expresses an E3 ligase activity-deficient IE2 derivative, which is degraded more slowly compared with wild-type IE2. We found that ie2 mutations had little effect on BmNPV infection in cultured cells, whereas budded virus and occlusion body production was significantly reduced in the hemolymph of B. mori larvae infected with ie2 mutants. These results indicate that both dimerization and proper degradation of BmNPV IE2 are crucial steps for efficient virus growth in B. mori larvae, but not in cultured cells. Oral infection assays also revealed that the infectivity of the occluded form of ie2 mutants was normal in B. mori larvae, which is inconsistent with the results reported from ie2 mutants of Autographa californica NPV. This suggests that loss of IE2 function causes virus-specific effects in host insects.     

Effects of overexpression and inhibited expression of thymosin,an actin‐interacting protein from Bombyx mori,on BmNPV proliferation and replication

Previous study showed that exogenously applied recombinant thymosin from Bombyx mori (BmTHY) reduces B. mori nucleopolyhedrovirus (BmNPV) proliferation in silkworm. Which stands to reason that BmTHY in B. mori is crucial for the defense against BmNPV. However, little is known about the effect of endogenously overexpressed or repressed BmTHY on B. mori resistance to virus infection. To study this issue, we constructed an overexpression and inhibited expression systems of BmTHY in BmN cells. The viral titer and the analysis from the quantitative real‐time polymerase chain reaction (PCR) revealed that overexpression of BmTHY decreased the copies of BmNPV gene gp41, which goes over to inhibit the proliferation of BmNPV in BmN cells, while the inhibited expression of BmTHY significantly enhanced viral proliferation in infected BmN cells. These results indicated that endogenous BmTHY can inhibit BmNPV proliferation and replication in infected BmN cells. Furthermore, Co‐IP showed that BmTHY could bind to actin in BmN cells. Also, the overexpression or inhibited expression of BmTHY shifted the ratio of F/G‐actin in infected BmN cells. Lastly, the BmTHY, an actin‐interacting protein, might be one of the key host factors against BmNPV, which inhibits viral proliferation and replication in BmN cells.     

High-level expression and improved folding of proteins by using the vp39 late promoter enhanced with homologous DNA regions

Some recombinant proteins expressed by baculovirus expression vector systems (BEVS) aggregate because the BEVS can produce large amounts of protein late during infection, when post-translational modification and protein quality control mechanisms are inactive. For expression during earlier stages than that driven by the polyhedrin (polh) very late promoter, transfer vectors were generated in which this promoter was replaced with a green fluorescent protein (GFP) gene controlled by a vp39 late promoter modified to contain HR3, one of the homologous DNA regions (HRs) of Bombyx mori nuclear polyhedrosis virus (BmNPV). The rise times of the fluorescence of GFP expressed by using recombinant viruses carrying the modified vp39 promoter were earlier than those associated with either the polh promoter or the native vp39 promoter lacking HR3. In transient expression assays, the vp39 late promoter in transfer vectors behaved like a delayed-early promoter, and was enhanced by HR3, and required IE-1 protein and various viral gene products encoded on both sides of BmNPV polh. When the vp39 promoter with HR3 was used, the aggregation of several foreign proteins expressed by the BEVS was markedly decreased. This study provides a new option for the expression of sufficiently quality-controlled proteins by using the vp39 promoter and HR3 in BEVS early in baculovirus infection, when the infection has caused little damage in the host cells.     

Efficient Protein Expression in <Emphasis Type="Italic">Bombyx mori</Emphasis> Larvae of the Strain d17 Highly Sensitive to <Emphasis Type="Italic">B. mori</Emphasis> Nucleopolyhedrovirus

The recombinant protein expression by Bombyx mori nucleopolyhedrovirus (BmNPV) infecting silkworm larvae or pupae may endow us with a potent system for the production of large eukaryotic proteins. However, the screening of silkworm strains ideally suited to this method has scarcely been conducted. In the present study, we injected recombinant BmNPV containing a reporter gene, luciferase or DsRed, into hemocoel of fifth instar larvae of selected 12 silkworm strains. Among them, the strain d17 is found to be the highest in reporter expression from the intrinsic polyhedrin promoter of Autographa californica NPV or the silkworm actin A3 promoter. These results suggest that the d17 strain is highly permissive for BmNPV replication and is the most likely candidate of a “factory” for large-scale expression using the BmNPV bacmid system.     

杆状病毒凋亡抑制基因IAP1促进家蚕CyclinB的核内积累

[目的]家蚕核型多角体病毒(Bombyx mori nucleopolyhedrovirus,BmNPV)是生产上危害最严重的病原之一。BmNPV感染BmN-SWU1细胞将细胞周期阻滞于G2/M期。CyclinB是调控细胞周期G2期向M期转换的重要细胞周期蛋白。因此,研究BmNPV感染后CyclinB变化对解析病毒调控细胞周期的机制具有重要意义,同时探究这个过程中与CyclinB互作的病毒蛋白,可为构建家蚕转基因品系提供分子靶标。[方法]qRT-PCR检测BmNPV感染后BmCyclinB的表达变化;免疫荧光观察病毒感染前后BmCyclinB的定位变化,通过细胞质细胞核蛋白分离实验验证。免疫共沉淀钓取与BmCyclinB互作的病毒蛋白。BmNPV感染期间敲除BmNPV IAP1观察BmCyclinB的入核比例。[结果]BmNPV感染后BmCyclinB转录水平下调。BmNPV感染前BmCyclinB主要定位于细胞质,而感染后主要定位于细胞核。BmNPV感染BmN-SWU1细胞后促进BmCyclinB在核内积累。共钓取了7个与BmCyclinB互作的病毒蛋白,免疫共沉淀和细胞共定位证明BmNPV IAP1与BmCyclinB之间存在相互作用。敲除BmNPV IAP1后BmCyclinB进入细胞核的数量显著减少。[结论]BmNPV IAP1可通过与BmCyclinB互作,促进BmCyclinB在核内积累。     

Sequencing of the putative DNA helicase-encoding gene of the Bombyx mori nuclear polyhedrosis virus and fine-mapping of a region involved in host range expansion

The complete sequence of a 3666-nucleotide (nt) open reading frame (ORF) and its flanking regions (58.1–62.1 map units (m.u.) from Bombyx mori nuclear polyhedrosis virus (BmNPV)) was determined. This ORF, BmNPV dnahel, encoded a predicted protein of 143 623 Da which possessed seven consensus motifs found in proteins which unwind duplex DNAs, indicating that it is a DNA helicase. A 572-bp SacI-HindlII fragment, BmScH, that was previously shown to expand the host range of Autographa californica NPV (AcNPV) following homologous recombination [Maeda et al. (1993) J. Virol. 67, 6234–6238], was localized within BmNPV dnahel. By cotransfection experiments, two adjacent nt (A and T) that appeared to be the minimal essential sequence necessary to expand the host range of AcNPV, were mapped within BmScH. These adjacent nt encoded a single amino acid difference between BmNPV (Asp) and AcNPV (Ser).     

Establishment of a Bombyx mori nucleopolyhedrovirus (BmNPV) hyper-sensitive cell line from the silkworm e21 strain

Baculoviral expression systems, including those of Autographa californica multiple nucleopolyhedrovirus Bombyx mori nucleopolyhedrovirus (BmNPV), are used for recombinant protein production. Four B. mori-derived (BmN4, Bm5, Bmc140, and Bme21) cell lines were infected with recombinant BmNPV viruses expressing firefly luciferase or EGFP as reporters under the control of a viral polyhedrin promoter. Bme21 exhibited significantly higher (100-fold) luciferase activity than BmN4 and Bm5. With the EGFP reporter protein, Bme21 cells showed a marked increase in the ratio of EGFP-positive cells, reaching 90?% on day 4 post-infection, while Bm5 and BmN4 cells had a slow increase in the ratio of their EGFP-positive population. The viral titer in a supernatant of Bme21 cell culture increased faster than those of Bm5 and BmN4 cells. This susceptibility indicates that the Bme21 cell line is useful for large-scale protein expression using BmNPV.     

Low METTL3 level in midgut of the Bombyx mori inhibit the proliferation of nucleopolyhedrovirus

N6-methyladeosine (m⁶A) plays an important role in virus infection and replication. Bombyx mori nuclear polyhedrosis is caused by Bombyx mori nucleopolyhedrovirus (BmNPV) infection. Expression levels of m⁶A-modification-related genes after the infection of BmNPV were detected at first. Then, expression levels of BmNPV nucleocapsid protein gene VP39 and envelope fusion protein gene GP64 after knockdown of METTL3in vitro were quantified to identify the effect of m⁶A modification on BmNPV. BmNPV firstly infects the larval midgut in case of oral infection. Subsequently, to clarify the relationship between m⁶A modification and resistance of the silkworm to BmNPV, we detected the expression levels of m⁶A-modification-related genes invivo before and after infection of BmNPV. The results indicated that low METTL3 level hindered the proliferation of BmNPV to some extent, and silkworm strain with low METTL3 level showed stronger resistance against BmNPV. This study will accumulate new experimental data for elucidating the resistance mechanism of silkworm against BmNPV.     

家蚕ADP/ATP转运酶(BmANT)抑制BmNPV增殖作用机制研究

【目的】家蚕核型多角体病毒(Bombyx mori nucleopolyhedrovirus,BmNPV)隶属于杆状病毒,需要借助宿主细胞能量代谢进行自身增殖复制。家蚕ADP/ATP转运酶(Bombyx mori ADP/ATP translocase,BmANT)是线粒体转运蛋白,在BmNPV感染条件下和家蚕热休克蛋白60(heatshockprotein60,BmHSP60)具有直接的相互作用。因此,鉴定Bmant基因在BmNPV感染过程中的功能特征,有助于解析杆状病毒劫持宿主细胞因子促进自身增殖复制机制,完善杆状病毒和宿主相互作用网络。【方法】通过结构域预测BmANT蛋白的结构特征,荧光定量PCR分析Bmant基因在BmNPV感染后的变化特征;并过表达BmANT检测其对病毒DNA复制和病毒蛋白表达变化影响;进一步在转录水平分析Bmant和Bmhsp60基因的调控关系;最后通过流式细胞术等技术鉴定Bmant和Bmhsp60基因共同调控BmNPV增殖复制的机制。【结果】SMART软件预测显示BmANT包含3个线粒体载体结构域,BmNPV感染24 h后Bmant基因持续下调表达。过表达Bmant基因能够显著抑制BmNPV DNA的复制和VP39蛋白表达。荧光定量PCR分析显示Bmant和Bmhsp60基因具有相互拮抗作用,能够相互抑制转录。Bmant和Bmhsp60共同过表达分析显示,BmANT和BmHSP60共同作用BmNPV能够抑制病毒的增殖复制。【结论】结果表明,BmANT是一个线粒体载体蛋白,具有显著的抗病毒作用,能够下调Bmhsp60基因表达,并抑制BmNPV增殖复制。     

Identification of a Domain of the Baculovirus Autographa californica Multiple Nucleopolyhedrovirus Single-Strand DNA-Binding Protein LEF-3 Essential for Viral DNA Replication

Autographa californica multiple nucleopolyhedrovirus (AcMNPV) lef-3 is one of nine genes required for viral DNA replication in transient assays. LEF-3 is predicted to contain several domains related to its functions, including nuclear localization, single-strand DNA binding, oligomerization, interaction with P143 helicase, and interaction with a viral alkaline nuclease. To investigate the essential nature of LEF-3 and the roles it may play during baculovirus DNA replication, a lef-3 null bacmid (bKO-lef3) was constructed in Escherichia coli and characterized in Sf21 cells. The results showed that AcMNPV lef-3 is essential for DNA replication, budded virus production, and late gene expression in vivo. Cells transfected with the lef-3 knockout bacmid produced low levels of early proteins (P143, DNA polymerase, and early GP64) and no late proteins (P47, VP39, or late GP64). To investigate the functional role of domains within the LEF-3 open reading frame in the presence of the whole viral genome, plasmids expressing various LEF-3 truncations were transfected into Sf21 cells together with bKO-lef3 DNA. The results showed that expression of AcMNPV LEF-3 amino acids 1 to 125 was sufficient to stimulate viral DNA replication and to support late gene expression. Expression of Choristoneura fumiferana MNPV lef-3 did not rescue any LEF-3 functions. The construction of a LEF-3 amino acid 1 to 125 rescue bacmid revealed that this region of LEF-3, when expressed in the presence of the rest of the viral genome, stimulated viral DNA replication and late and very late protein expression, as well as budded virus production.Members of the family Baculoviridae are large rod-shaped enveloped viruses containing a circular double-stranded DNA genome that varies in size from 80 to 180 kb (3). Baculoviruses are unique viruses that only replicate in invertebrates. In general, isolates of each baculovirus species exhibit a narrow host range. For example, Choristoneura fumiferana nucleopolyhedrovirus (CfMNPV) is known to infect only the spruce budworm (Choristoneura fumiferana), but Autographa californica multiple nucleopolyhedrovirus (AcMNPV) replicates in hosts derived from several families of Lepidoptera (14). The restriction of baculovirus replication in nonpermissive hosts has been studied, and a number of genes, expressed at different points in the virus replication cycle, have been identified as playing some role in this restriction (40). Most of these identified genes are associated with viral DNA replication and late gene expression.Nine AcMNPV genes (ie-1, ie-2, p143, dnapol, lef-1, lef-2, lef-3, pe38, and p35) are required for directing transient replication of plasmids in transfected cells, suggesting that these genes are involved in baculovirus DNA replication (19, 27, 46). Only two of these genes, p143 and dnapol, have been shown to be essential for AcMNPV DNA replication in vivo (26, 41). Another gene, lef-11, although not essential for replication in transient assays, is also essential for DNA replication in vivo (24), indicating that questions concerning DNA replication need to be studied within the context of the whole virus genome.LEF-3 is a single-stranded DNA-binding protein (SSB) that self-localizes to the nucleus (15, 45). LEF-3 is also responsible for transporting P143, a predicted DNA unwinding (helicase) protein, into the nucleus, where it is required for viral DNA replication (26, 29, 45). LEF-3 may also regulate the activity of a viral alkaline nuclease (AN) during viral DNA replication (32). We have previously mapped the region carrying the nuclear localization signal of LEF-3 to residues 26 to 32 within the N-terminal 56-amino-acid domain (1, 7). By fusing this domain in frame with P143 and testing the construct in transient plasmid replication assays, we showed that additional functions of LEF-3 are required during replication, in addition to interacting with P143 to transport it into the nucleus. In fact, we have demonstrated that there is a close interaction between LEF-3 and P143 (as well as the immediate-early 1 [IE-1] protein) on viral DNA in the nucleus (17), suggesting that direct interaction of LEF-3 and P143 is required during viral DNA replication. The LEF-3 domain necessary for directing P143 to the nucleus is included within the N-terminal 125 amino acids (7). Two conserved cysteine residues in this region (C82 and C106) are not essential for this function, so it is unknown which specific amino acids are involved in the LEF-3-P143 interaction (1).In this study, a lef-3 knockout genome was constructed by exploiting a baculovirus shuttle vector (bacmid) system. Bacmids (a baculovirus genome carrying independent origins for replication in either bacteria or insect cells) were originally developed to prepare recombinant baculoviruses in Escherichia coli prior to transfection into insect cells (28). The system takes advantage of the site-specific transposition properties of the Tn7 transposon to simplify and enhance the process of generating recombinant bacmid DNA. In our case, we used the AcMNPV-derived bacmid as a template for deletion of the AcMNPV lef-3 gene and then examined the effect of this deletion on viral protein synthesis, budded virus (BV) production, and viral DNA replication. We also examined the ability of LEF-3 from another Alphabaculovirus species member, CfMNPV, to substitute for AcMNPV in a recombinant bacmid.     

Efficient production of Japanese encephalitis virus-like particles by recombinant lepidopteran insect cells

The production of Japanese encephalitis (JE) virus-like particles (VLPs) in stably transformed lepidopteran insect cells was investigated. The DNA fragment encoding the JE virus (JEV) prM signal peptide, the precursor (prM) of the viral membrane protein (M), and the envelope glycoprotein (E) was cloned into the plasmid vector pIHAbla. The pIHAbla contained the Bombyx mori actin promoter downstream of the B. mori nucleopolyhedrovirus (BmNPV) IE-1 transactivator and the BmNPV HR3 enhancer for high-level expression, together with a blasticidin resistance gene for use as a selectable marker. DNA encoding a form of prM with a pr/M cleavage site mutation was used to suppress the cell-fusion activity of VLPs. After transfection with the resultant plasmid, Trichoplusia ni BTI-TN-5B1-4 (High Five) cells were incubated with blasticidin, and cells resistant to the antibiotic were obtained. Western blot analysis and enzyme-linked immunosorbent assay of a culture supernatant showed that transfected High Five cells secreted an E antigen equivalent to the authentic JEV E. Sucrose density-gradient sedimentation analysis of the culture supernatant from recombinant High Five cells indicated that secreted E antigen molecules were produced in a particulate form. VLPs recovered from the supernatant successfully induced neutralizing antibodies in mice, particularly when adsorbed to alum adjuvant. High yields (≈30 μg/ml) of E antigen were achieved in shake-flask cultures. These results indicate that recombinant insect cells may offer a novel approach for efficient VLP production.