Recombinant Bombyx mori nucleopolyhedrovirus harboring green fluorescent protein

Bombyx mori Pupae Efficiently Produce Recombinant AAV2/HBoV1 Vectors with a Bombyx mori Nuclear Polyhedrosis Virus Expression System

Recombinant adeno-associated virus (AAV) vectors have broad application prospects in the field of gene therapy. The establishment of low-cost and large-scale manufacturing is now the general agenda for industry. The baculovirus-insect cell/larva expression system has great potential for these applications due to its scalability and predictable biosafety. To establish a more efficient production system, Bombyx mori pupae were used as a new platform and infected with recombinant Bombyx mori nuclear polyhedrosis virus (BmNPV). The production of a chimeric recombinant adeno-associated virus (rAAV) serotype 2/human bocavirus type-1 (HBoV1) vector was used to evaluate the efficiency of this new baculovirus expression vector (BEV)–insect expression system. For this purpose, we constructed two recombinant BmNPVs, which were named rBmNPV/AAV2Rep-HBoV1Cap and rBmNPV/AAV2ITR-eGFP. The yields of rAAV2/HBoV1 derived from the rBmNPV/AAV2Rep-HBoV1Cap and rBmNPV/AAV2ITR-eGFP co-infected BmN cells exceeded 2 × 10⁴ vector genomes (VG) per cell. The rBmNPV/AAV2Rep-HBoV1Cap and rBmNPV/AAV2ITR-eGFP can express stably for at least five passages. Significantly, rAAV2/HBoV1 could be efficiently generated from BmNPV-infected silkworm larvae and pupae at average yields of 2.52 × 10¹² VG/larva and 4.6 × 10¹² VG/pupa, respectively. However, the vectors produced from the larvae and pupae had a high percentage of empty particles, which suggests that further optimization is required for this platform in the future. Our work shows that silkworm pupae, as an efficient bioreactor, have great potential for application in the production of gene therapy vectors.

Core promoter regulates the expression of cathepsin B gene in the fat body of Bombyx mori

Bombyx mori cathepsin B (BmCatB) is involved in the programmed cell death of the fat body during B. mori metamorphosis. For a better understanding of the functional regulatory mechanism, the promoter region of BmCatB in the transcriptional regulation has been identified and analyzed in the present study. BmCatB promoter region performed by the 5' truncation or mutagenesis of EcREs was inserted in the pFA3Luc-A3RL double fluorescence expression vector to activate the fireflies luciferase (FLuc) gene. The results indicated that the dual-luciferase activity of BmCatB gene in the silkworm larval fat body is regulated by the length of promoter. Site-directed mutagenesis of EcRE experiment has shown that the EcREs are up-regulated significantly in the regulation of the BmCatB promoter. A 142bp region (-1165 to -1023) and EcREs are the mainly fat-body tissue-specificity related region and could function as a core promoter element.

The Bombyx mori nucleopolyhedrovirus Bm111 affects virulence but not virus replication

The Bm111 of Bombyx mori nucleopolyhedrovirus (BmNPV) encodes a small polypeptide (70 amino acids) of which the function remains unknown. To characterize its function, multiple sequence alignments were performed, and the predicted protein was found to share amazingly high (98 %) sequence identity with the Bombyx mandarina nucleopolyhedrovirus ORF110 (Boma110) but negligible with proteins of other insect viruses, indicating the close relationship between these two NPVs with silkworm larvae. The transcription of Bm111 was detected as early as 3 hpi in BmNPV-infected BmN cells, suggesting it is an early gene. To investigate the role of Bm111 in baculovirus life cycle, a Bm111-knockout virus was constructed by bacmid recombination in Escherichia coli. The results showed that knockout of the Bm111 did not affect the replication of virus DNA, but significantly extended the death time of infected silkworm larvae compared to the wild-type or rescued viruses. We also successfully expressed the recombinant protein Bm111 in E. coli to provide sufficient material for subsequent studies. Taken together, our data indicate that Bm111 only affects the virulence of BmNPV, but not its replication.

Characterization of a late gene, ORF67 from Bombyx mori nucleopolyhedrovirus

Open reading frame 67 of Bombyx mori nucleopolyhedrovirus (BmORF67) is a homologue of Autographa californica multiple NPV ORF81. The gene is conserved among all baculoviruses and is thus considered a baculovirus core gene. The transcript of BmORF67 was detected at 18-72 h post-infection (p.i.). Polyclonal antiserum raised to a His-BmORF67 fusion protein recognized BmORF67 in infected cell lysates from 24 to 72 h p.i., suggesting that BmORF67 is a late gene. BmORF67 was not detected either in budded viruses or occlusion-derived virus. Immunofluoresence analysis showed that the protein located in the cytoplasm and interacted with host protein actin A3. In conclusion, BmORF67 is a late protein localized in the cytoplasm of infected cells that interacts with host protein.

Characterization of a cyclin homolog from Bombyx mori nucleopolyhedrovirus

We have identified and characterized a cyclin homolog from Bombyx mori nucleopolyhedrovirus (BmNPV), encoding a 34 kDa protein (ORF 120) with 48% homology to the host Bombyx mori cellular cyclin B. The expression of the viral cyclin (v-cyc) was detected from 12 h following virus infection and the maximum transcript levels were seen at 24-36 h. The transcription start site mapping of v-cyc revealed the presence of a transcript initiating from a TAAG motif located 13 nucleotide (nt) upstream of the ORF as well as longer transcripts initiating from farther upstream region and encompassing the preceding ORF 119. The transcription was terminated at 15 nt downstream of the ORF 120. The expression of the host cellular cyclin B declined following virus infection and the transcript disappeared almost completely by 24 h even as the expression of v-cyc reached high levels. The synthesis of the viral cyclin was detected at 36-48 h post-infection. The viral cyclin in association with other host or viral proteins catalysed phosphorylation of histone H1. The host cells were arrested in G2/M phase following virus infection and thus, the virus cyclin in association with other proteins maintains the host cells at the G2/M phase while permitting the virus DNA replication.

Efficient large-scale protein production of larvae and pupae of silkworm by Bombyx mori nuclear polyhedrosis virus bacmid system

Silkworm is one of the most attractive hosts for large-scale production of eukaryotic proteins as well as recombinant baculoviruses for gene transfer to mammalian cells. The bacmid system of Autographa californica nuclear polyhedrosis virus (AcNPV) has already been established and widely used. However, the AcNPV does not have a potential to infect silkworm. We developed the first practical Bombyx mori nuclear polyhedrosis virus bacmid system directly applicable for the protein expression of silkworm. By using this system, the green fluorescence protein was successfully expressed in silkworm larvae and pupae not only by infection of its recombinant virus but also by direct injection of its bacmid DNA. This method provides the rapid protein production in silkworm as long as 10 days, is free from biohazard, thus will be a powerful tool for the future production factory of recombinant eukaryotic proteins and baculoviruses.

Systemic and in vitro infection process of Bombyx mori nucleopolyhedrovirus

To analyse the systemic progression of infection by Bombyx mori nucleopolyhedrovirus (BmNPV) through oral ingestion by the silkworm larvae, a recombinant virus (vBmp10GFP) expressing the green fluorescent protein (GFP) under the control of the very late, viral p10 promoter (which still forms the polyhedral occlusion bodies) was constructed. Infection of B. mori derived BmN cells with the recombinant virus resulted in the expression of GFP from 12 h post infection (hpi), with maximal accumulation of the expressed protein by 60 hpi. B. mori larvae that ingested the polyhedra containing vBmp10GFP showed localized expression of GFP in the midgut epithelial cells within 24 hpi, indicating virus replication. The primary spread of the virus infection occurred through the tracheae. Viral multiplication was subsequently detected in nearly all the larval tissues including the neurons and regions of silk-glands that were in contact with the tracheae. Infection in fat bodies was widespread by 48 hpi, by which time the haemocytes also showed infection. In vitro infection of isolated organs/tissues from B. mori with the budded virions (BV) of vBmp10GFP also showed viral multiplication in the cells that were associated with the tracheae, confirming the role of tracheae in spreading the infection.

Baculovirus display of fusion protein of Peste des petits ruminants virus and hemagglutination protein of Rinderpest virus and immunogenicity of the displayed proteins in mouse model

Recombinant Bombyx mori nucleopolyhedroviruses (BmNPV) displaying the immunodominant ectodomains of fusion glycoprotein (F) of Peste des petitis ruminants virus (PPRV) and the hemagglutinin protein (H) of Rinderpest virus (RPV), on the budded virions as well as the surface of the infected host cells have been constructed. The F and H protein sequences were inserted in-frame within the amino-terminal region of BmNPV envelope glycoprotein GP64 expressing under the strong viral polyhedrin (polh) promoter. We improved the recombinant virus selection in BmNPV by incorporating the green fluorescent protein gene (gfp) as selection marker under a separate promoter within the transfer cassette harboring the desired genes. Following infection of the insect larvae or the host-derived BmN cells with these recombinant BmNPVs, the expressed GP64 fusion proteins were displayed on the host cell surface and the budded virions. The antigenic epitopes of the recombinant proteins were properly displayed and the recombinant virus particles induced immune response in mice against PPRV or RPV.

Bombyx mori nucleopolyhedrovirus-based surface display system for recombinant proteins

We describe here the development of a 'eukaryotic display system' for heterologous proteins on the viral and host cell surfaces using Bombyx mori nucleopolyhedrovirus (BmNPV). The reporter gene gfp (green fluorescent protein) was fused to either the gp64 gene encoding the full-length BmNPV envelope protein GP64 or to its 5' region encoding only the N-terminal domain harbouring the signal sequence, and recombinant viruses expressing the corresponding fusion proteins under the strong viral polyhedrin promoter were generated. On infection of the host insect B. mori or the host-derived BmN cells with the full-length GP64-GFP virus, abundant expression of the recombinant protein and its display on the cell surface were achieved. The fusion protein was also a component of the budded virions. Thus, the BmNPV-based display system provides an alternative to the previously established Autographa californica multinucleocapsid nucleopolyhedrovirus display system. The recombinant virus expressing GFP has also been used in preliminary pathological investigations on virus infection in B. mori and provides a simple method for screening for antiviral agents.

Purification and diagnostic utility of a recombinant hepatitis E virus capsid protein expressed in insect larvae

We report here the expression and purification of a truncated form of the hepatitis E virus ORF2 protein (ORF2delta111/deltaTM), from the fat bodies of Spodoptera litura larvae infected with a recombinant baculovirus. The purified protein migrated as a doublet of approximately 56 kDa on SDS-PAGE and was found to be glycosylated by staining with concanavalin A-linked horseradish peroxidase. The protein was used in a sensitive and specific enzyme-linked immunosorbent assay (ELISA) for the detection of antibodies to HEV. The results showed complete concordance with those obtained using a commercial kit for the detection of anti-HEV antibodies. Antigen expression in the insect larvae system presents a rapid and low-cost method that obviates the need for expensive tissue culture scale-ups or special equipment.

Functional characterization and structural modelling of late gene expression factor 4 from Bombyx mori nucleopolyhedrovirus

Late gene expression factor 4 (LEF4), a multifunctional protein encoded by the Bombyx mori nucleopolyhedrovirus has been bacterially expressed and characterized. Sequence analyses and three-dimensional modelling of B. mori LEF4 showed that the protein is related to mRNA-capping enzymes, which are organized as two modular domains. Most of the acidic side chains in LEF4 were solvent-exposed and spread all along the fold. A region dominated by negatively charged groups, which protrudes from the larger domain was ideally suited for interactions with proteins having positively charged patches at the surface. The purified LEF4 protein exhibited different enzyme activities associated with mRNA-capping enzymes, i.e. GTP-binding, RNA triphosphatase and guanylate transferase activities. In addition, LEF4 also showed NTP-hydrolysing activity. The kinetic analysis of ATP hydrolysis revealed a sigmoidal response with two deduced binding sites for ATP, whereas the guanylate transferase activity showed a typical hyperbolic response to varying concentrations of GTP with a Km of 330+/-20 microM. Analysis of the modelled three-dimensional structure of LEF4 suggested the presence of crucial residues in sequence motifs important for the integrity of the fold. Mutation of one such conserved and buried tyrosine residue to cysteine in the motif IIIa, located close to the interlobe region of the model, resulted in a 44% loss of guanylate transferase activity of LEF4 but had no effect on the ATPase activity.

Transcriptional analysis and preliminary characterization of ORF Bm42 from Bombyx mori nucleopolyhedrovirus

Clusters of closely spaced genes are frequently present in baculovirus genomes. We report here the detailed transcriptional mapping of one such gene cluster from Bombyx mori nucleopolyhedrovirus (BmNPV) comprising five ORFs, viz., Bm42, Lef-10, VP1054, Bm44, and Bm45, which are closely spaced and transcribed in the same orientation. This region is homologous to ORFs 53, 53a, 54, 55, and 56, respectively, on the AcMNPV genome. Multiple, overlapping sets of polycistronic transcripts from this region, that initiate independently but terminate at a common 3' end, were detected following BmNPV infection. Expression of these genes followed a temporal pattern where the shorter transcripts initiating downstream appeared early, and with the progress of infection the longer transcripts initiated from upstream. The first ORF in this cluster, Bm42, is conserved in almost all baculoviruses, but has not been characterized so far. The protein was localized in the cytosol, predominantly near the nucleus-cytoplasm boundary in BmNPV-infected BmN cells. Bm42 was present in the budded virions and was not associated with occluded virus particles or the polyhedral matrix.

Characterization of late gene expression factors lef-9 and lef-8 from Bombyx mori nucleopolyhedrovirus

Late gene expression factors, LEF-4, LEF-8, LEF-9 and P47 constitute the primary components of the Autographa californica multinucleocapsid polyhedrovirus (AcMNPV)-encoded RNA polymerase, which initiates transcription from late and very late promoters. Here, characterization of lef-9 and lef-8, which encode their corresponding counterparts, from Bombyx mori NPV is reported. Transcription of lef-9 initiated at two independent sites: from a GCACT sequence located at -38 nt and a CTCTT sequence located at -50 nt, with respect to the +1 ATG of the open reading frame. The 3' end of the transcript was mapped to a site 17 nt downstream of a canonical polyadenylation signal located 7 nt downstream of the first of the two tandem translational termination codons. Maximum synthesis of LEF-9 was seen from 36 h post-infection (p.i.). The transcription of lef-8 initiated early in infection from a GTGCAAT sequence that differed in the corresponding region from its AcMNPV counterpart (GCGCAGT), with consequent elimination of the consensus early transcription start site motif (underlined). Peak levels of lef-8 transcripts were attained by 24 h p.i. Immunocopurification analyses suggested that there was an association between LEF-8 and LEF-9 in vivo.