A new cell line from Spodoptera exigua (Lepidoptera: Noctuidae) and its differentially expressed genes

A new cell line, designated IOZCAS‐Spex XI, was established from the pupal ovaries of Spodoptera exigua (Lepidoptera: Noctuidae) in TNM‐FH medium containing 10% foetal bovine serum. The spherical cells were predominant among the various cell types. The population‐doubling time during the logarithmic phase of growth was 81.7 h. It was confirmed that the cell line originated from S. exigua by DAF‐PCR technique. Analysis of susceptibility to baculovirus showed that the new cell line was susceptible to S. exigua nucleopolyhedrovirus (SeNPV), Autographa californica multiple NPV (AcMNPV) and slightly susceptible to S. litura NPV (SpltNPV), while not permissive to Helicoverpa armigera NPV and Hyphantria cunea NPV (HcNPV). Real‐Time PCR analysis was carried out to compare some differentially expressed genes between the cell line and the primary culture. The result showed that marked significant differences were observed in the expression of the genes of SUMO‐1 activating enzyme, BCCIP‐like protein, 10 kDa HSP, CypA, receptor for activated PKC, PDI‐like protein ERp57, ALDH, DEAD box ATP‐dependent RNA helicase‐like protein (P < 0.01), while a significant difference was obtained in the expression of GST gene between the cell line and the primary culture (P < 0.05).     

Apis iridescent virus and "clustering disease" of Apis cerana

NPV of Spodoptera littoralis was completely inactivated in vitro following 10 min of exposure to a temperature higher than 90°C, but survived 3 weeks at ?20°C. At pH 12, some 75% of the infectivity was lost. Measurable proteolysis in vitro of the polyhedral protein by a larval midgut extract could be obtained only when the pH of the reaction mixture was raised to an unnatural level of 10.5, the natural pH of the midgut content being 8.5 or 9.5 according to different authors. The plant growth retardant Phosfon synergized mortality caused by the NPV. The virus could be cross-transmitted to two congeneric species of Spodoptera (S. exigua and S. litura), but could not infect any of four tested species belonging to other genera of the Moctuid family.     

A cell strain cloned from Spodoptera exigua cell line (IOZCAS-Spex-II) highly susceptible to S. exigua nucleopolyhedrovirus infection

A cell strain (IOZCAS-Spex-II-A) cloned from IOZCAS-Spex-II, a cell line established from the fat body of Spodoptera exigua (Lepidoptera: Noctuidae) larva, was characterized, and its capability to produce S. exigua nucleopolyhedrovirus was high with infection rate exceeding 90% compared with its parental cell line IOZCAS-Spex-II that scored only 50%. Growth curve of budded virus (BV) in the strain was analyzed and the titer of BV reached the highest of 3.7?×?10⁴ pfu/mL by 96 h after inoculation. Concentration of occlusion bodies (OBs) produced by the cloned cell strain (IOZCAS-Spex-II-A) was 7.1?×?10⁷ OBs/mL, while the parental cell line produced 2.4?×?10⁷ OBs/mL. The average yield of the virus was 176 OBs/cell of IOZCAS-Spex-II-A compared with 211 OBs/cell that of the parental cell line. Significant differences were observed in virus production, growth characters, cell shape, between the parental cell line, and its clone. The cell lines (IOZCAS-Spex-II and IOZCAS-Spex-II-A) were also susceptible to Autographa californica multiple nucleopolyhedrovirus infection. In addition, they were characterized with regard to their growth rates and DNA amplification fingerprinting technique employing polymerase chain reaction.     

A Comparison of Growth and Development of Three Major Agricultural Insect Pests Infected with Heliothis virescens ascovirus 3h (HvAV-3h)

Ascoviruses are double-stranded DNA viruses that are pathogenic to lepidopteran hosts, particularly noctuid larvae. Infection of a larva is characterized by retarded growth, reduced feeding and yellowish body color. In this paper, we reported the growth and development of three major agricultural noctuid insect pests, Helicoverpa armigera (Hübner), Spodoptera exigua (Hübner) and Spodoptera litura (Fabricius), infected with Heliothis virescens ascovirus 3h (HvAV-3h). Using 10-fold serial dilutions (0 to 7) of HvAV-3h-containing hemolymph to infect S. litura larvae, we found no significant difference in larval mortalities from 0 to 10³-fold dilutions; however, significant differences were observed at 10⁴-fold dilution and above. Using a 10-fold dilution of HvAV-3h-containing hemolymph to infect H. armigera, S. exigua and S. litura larvae, we found that the growth and development were significantly affected. All infected larvae could not pupate; the survival times of treated H. armigera, S. litura and S. exigua larvae were significantly longer than untreated control larvae. Body weight showed significant difference between treated and untreated control group from day 1 after inoculation in H. armigera and S. exigua, but day 2 in S. litura. Additionally, food intake also showed significant difference between treated and untreated control group from day 2 after inoculation in H. armigera and S. litura, but day 3 in S. exigua.     

Interaction of Gene-Cloned and Insect Cell-Expressed Aminopeptidase N of Spodoptera litura with Insecticidal Crystal Protein Cry1C

Insecticidal toxins produced by Bacillus thuringiensis interact with specific receptors located in the midguts of susceptible larvae, and the interaction is followed by a series of biochemical events that lead to the death of the insect. In order to elucidate the mechanism of action of B. thuringiensis toxins, receptor protein-encoding genes from many insect species have been cloned and characterized. In this paper we report the cloning, expression, and characterization of Cry toxin-interacting aminopeptidase N (APN) isolated from the midgut of a polyphagous pest, Spodoptera litura. The S. litura APN cDNA was expressed in the Sf21 insect cell line by using a baculovirus expression system. Immunofluorescence staining of the cells revealed that the expressed APN was located at the surface of Sf21 cells. Treatment of Sf21 cells expressing S. litura APN with phosphatidylinositol-specific phospholipase C demonstrated that the APN was anchored in the membrane by a glycosylphosphatidylinositol moiety. Interaction of the expressed receptor with different Cry toxins was examined by immunofluorescence toxin binding studies and ligand blot and immunoprecipitation analyses. By these experiments we showed that the bioactive toxin, Cry1C, binds to the recombinant APN, while the nonbioactive toxin, Cry1Ac, showed no interaction.     

Expression of Functional Region of Peanut (Arachis hypogaea) Agglutinin Gene as an Active Lectin in Insect Cells

Natural peanut agglutinin (PNA) gene is expressed with a signal sequence of 23 amino acids and a C terminal peptide of 14 amino acids. Functionally active recombinant PNA having apparent subunit molecular weight of 29kD was obtained when expressed without signal peptide and non-essential C terminal peptide sequences in insect cells. Expression in insect cells (Sf9) was driven by a 129bp Spodoptera litura nucleopolyhedrosis virus (S/NPV) sequence containing its polyhedrin promoter.     

Expression of lacZ reporter gene under the control of the polyhedrin promoter of Spodoptera litura nuclear polyhedrosis virus

Promoter function of the putative polyhedrin-encoding gene (polh) of Spodoptera litura nuclear polyhedrosis virus (S1MNPV) was determined by transferring it to the Autographa californica nuclear polyhedrosis virus (AcMNPV) through the AcNPV polh based vector, pVL1393. Three transfer vectors pCBT2, pCBT3 and pCBT4 were constructed by substituting the promoter and the neighbouring sequences of AcNPV in pVL1393 by that of SINPV. The Escherichia coli lacZ gene was placed downstream from the S1NPV polh promoter in the hybrid transfer vector (pCBT) constructs. Co-transfection of Spodoptera frugiperda cells (Sf9) with each of the pCBTlacZ vector and wild-type AcNPV DNAs led to synthesis of β-galactosidase (βGal). The plaque-purified recombinant viruses (S1AcNPV.lacZ) expressing lacZ under the polh promoter of S1NPV are stable. The highest βGal activity was obtained with S1AcNPV4.lacZ. Production of βGal with recombinant virus, S1AcNPV3.lacZ in which S1NPV polh promoter is in the reverse orientation in the AcNPV genome, is 83% of that produced by S1AcNPV4.lacZ. These results indicate that the S1NPV polh promoter is active in the genetic environment of AcNPV; the polh of S1NPV is phylogenetically related to AcNPV like other baculoviruses.     

Characterization of an Insecticidal Toxin and Pathogenicity of Pseudomonas taiwanensis against Insects

Pseudomonas taiwanensis is a broad-host-range entomopathogenic bacterium that exhibits insecticidal activity toward agricultural pests Plutella xylostella, Spodoptera exigua, Spodoptera litura, Trichoplusia ni and Drosophila melanogaster. Oral infection with different concentrations (OD = 0.5 to 2) of wild-type P. taiwanensis resulted in insect mortality rates that were not significantly different (92.7%, 96.4% and 94.5%). The TccC protein, a component of the toxin complex (Tc), plays an essential role in the insecticidal activity of P. taiwanensis. The ΔtccC mutant strain of P. taiwanensis, which has a knockout mutation in the tccC gene, only induced 42.2% mortality in P. xylostella, even at a high bacterial dose (OD = 2.0). TccC protein was cleaved into two fragments, an N-terminal fragment containing an Rhs-like domain and a C-terminal fragment containing a Glt symporter domain and a TraT domain, which might contribute to antioxidative stress activity and defense against macrophagosis, respectively. Interestingly, the primary structure of the C-terminal region of TccC in P. taiwanensis is unique among pathogens. Membrane localization of the C-terminal fragment of TccC was proven by flow cytometry. Sonicated pellets of P. taiwanensis ΔtccC strain had lower toxicity against the Sf9 insect cell line and P. xylostella larvae than the wild type. We also found that infection of Sf9 and LD652Y-5d cell lines with P. taiwanensis induced apoptotic cell death. Further, natural oral infection by P. taiwanensis triggered expression of host programmed cell death-related genes JNK-2 and caspase-3.     

A Role for Innexin2 and Innexin3 Proteins from Spodoptera litura in Apoptosis

Gap junctions formed by two hemichannels from two neighboring cells are cell-to-cell communication channels; hemichannels are communication channels between intracellular and extracellular environments. Hemichannels are hexameric proteins formed by connexins, pannexins, innexins and vinnexins. Innexin-hemichannels (innexons) exist in the lepidopteran cell surface, but their component innexins and functions have not been reported. Recent studies by others have demonstrated that hemichannels, connexons and pannexons from vertebrates serve as regulators of apoptosis via inactivating the PI3K/Akt signaling pathway. Here, the apoptogenic properties of innexons are demonstrated using two innexin cDNAs, Spli-inx2 and Spli-inx3, which were isolated from hemocytes of lepidopteran Spodoptera litura. Alignment analysis revealed that these two genes belong to a conserved innexin family, as they contain the insect signature YYQWV motif at the beginning of the second transmembrane domain. Immunofluorescence showed that two fusion proteins, Inx2-V5 and Inx3-V5, were localized predominantly in the cell membrane, cytoplasm and also nuclei. Ectopic expression in Sf9 cells and over-expression of Inx2 and Inx3 in Spli221 cells promoted apoptosis. In the Spli221 cells, apoptotic cells presented remarkable membrane blebbing. This study also showed that Sf9 and Spli221 cells undergo low level apoptosis under normal culture conditions, but not Hi5 cells. In Hi5 stable cell lines, biotinylation was used to isolate surface proteins and confirm Inx2 and Inx3 localization in the cell membrane and also further data showed that Hi5 cells may activate the PI3K signaling pathway via phosphorylating molecular Akt downstream. This result suggests that innexon-promoted apoptosis may be involving the PI3K/Akt signaling pathway. These findings will facilitate further examinations of the apoptotic regulation by the PI3K/Akt signaling pathway and comparative studies of innexons, connexons, pannexons, and vinnexons.     

RNA interference of β1 integrin subunit impairs development and immune responses of the beet armyworm, Spodoptera exigua

Integrin is a cell surface protein that is composed of α and β heterodimer and mediates cell interaction with extracellular matrix or other cells including microbial pathogens. A full length cDNA sequence (2862 bp) of a β1 subunit integrin (βSe1) was cloned from the beet armyworm, Spodoptera exigua. Phylogenetic analysis showed that βSe1 was clustered with other insect β integrin subunits with the highest amino acid sequence identity (98.3%) to β1 of Spodoptera litura. Structural analysis of the deduced amino acid sequence indicated that βSe1 possessed all functional domains known in other insect β1 integrins. RT-PCR analysis showed that βSe1 was expressed in all developmental stages and all tested tissues of S. exigua. Its expression was further upregulated in hemocytes by injections of various microbes from quantitative RT-PCR analysis. Injection of double-stranded βSe1 RNA (dsRNA^βSe1) into late instar S. exigua suppressed βSe1 expression and resulted in significant reduction in pupal weight. The dsRNA^βSe1 injection significantly impaired hemocyte-spreading and nodule formation of S. exigua in response to bacterial challenge. Furthermore, oral ingestion of dsRNA^βSe1 induced reduction of βSe1 expression in midgut and resulted in significant mortality of S. exigua during immature development. These results suggest that βSe1 plays crucial roles in performing cellular immune responses as well as larval development in S. exigua.     

Naturally Occurring Deletion Mutants Are Parasitic Genotypes in a Wild-Type Nucleopolyhedrovirus Population of Spodoptera exigua

A wild-type nucleopolyhedrovirus (NPV) isolate from Spodoptera exigua from Florida (Se-US2) is a variant of the SeMNPV type strain since it has a unique DNA profile but is closely related to other known geographical isolates of SeMNPV. It consists of several genotypic variants, of which seven were identified in a Se-US2 virus stock by a modification of the in vivo cloning method developed by Smith and Crook (Virology 166:240–244, 1988). The US2A variant was the most prevalent genotype, and it was designated the prototype Se-US2 variant, while four of the variants (US2B, US2D, US2F, and US2H) were found at low frequency. US2C and US2E were also very abundant, and their diagnostic bands were easily observed in wild-type isolate restriction endonuclease patterns. The analysis of each variant, compared to the prototype US2A, showed that US2B and US2H presented minor differences, while US2D and US2F contained slightly larger insertions or deletions. Variants US2C and US2E contained major deletions of 21.1 and 14 kb, respectively, mapping at the same genomic region (between 14.5 and 30.2 map units [m.u.] and between 12.8 and 23 m.u., respectively). This is the first report of such deletion mutants in a natural baculovirus population. Variants US2A, US2B, US2D, US2F, and US2H were isolated as pure genotypes, but we failed to clone US2C and US2E in vivo. When these two variants appeared without apparent contamination with any other variant, they lost their pathogenicity for Spodoptera exigua larvae. A further biological characterization showed evidence that these two naturally occurring deletion mutants act as parasitic genotypes in the virus population. Bioassay data also demonstrated that pure US2A is significantly more pathogenic against second-instar S. exigua larvae than the wild-type isolate. The need for precise genotypic characterization of a baculovirus prior to its development as a bioinsecticide is discussed.     

Host range expansion by recombination of the baculoviruses Bombyx mori nuclear polyhedrosis virus and Autographa californica nuclear polyhedrosis virus.

The mechanisms of host specificity of nuclear polyhedrosis viruses (NPVs) (Baculoviridae) were analyzed after coinfection of Bombyx mori NPV (BmNPV) and one of four distinct groups of Spodoptera litura NPV (SlNPV), including an Autographa californica NPV (AcNPV) variant (S. Maeda, Y. Mukohara, and A. Kondo, J. Gen. Virol. 71:2631-2639, 1990), into various lepidopteran cell lines. Replication of BmNPV in nonpermissive cells (TN-386, SF-21, and CLS-79) was induced by coinfection with AcNPV but not with the other three SlNPV groups. These induced progeny NPVs were plaque purified in BmN cells, which are susceptible to only BmNPV, and characterized. Most of these isolates did not replicate in the cell lines in which they were produced, indicating the existence of a helper function of AcNPV for BmNPV replication in nonpermissive cells. Some of these isolates, however, were able to replicate in cell lines nonpermissive to BmNPV, indicating the appearance of a new virus with wider host specificity. DNA restriction endonuclease analysis showed that the isolates exhibiting wider host range were recombinant viruses between the parents, AcNPV and BmNPV, resulting from various types of crossovers of relatively large areas of their genomes. Expansion of host range was also observed in larvae.     

Persistent Baculovirus Infection Results from Deletion of the Apoptotic Suppressor Gene p35

Infection with the wild-type baculovirus Autographa californica multiple nuclear polyhedrosis virus (AcMNPV) results in complete death of Spodoptera frugiperda (Sf) cells. However, infection of Sf cells with AcMNPV carrying a mutation or deletion of the apoptotic suppressor gene p35 allowed the cloning of surviving Sf cells that harbored persistent viral genomes. Persistent infection established with the virus with p35 mutated or deleted was blocked by stable transfection of p35 in the host genome or by insertion of the inhibitor of apoptosis (iap) gene into the viral genome. These artificially established persistently virus-infected cells became resistant to subsequent viral challenge, and some of the cell lines carried large quantities of viral DNA capable of early gene expression. Continuous release of viral progenies was evident in some of the persistently virus-infected cells, and transfection of p35 further stimulated viral activation of the persistent cells, including the reactivation of viruses in those cell lines without original continuous virus release. These results have demonstrated the successful establishment of persistent baculovirus infections under laboratory conditions and that their establishment may provide a novel continuous, nonlytic baculovirus expression system in the future.     

Continuous cell line from Spodoptera exigua (Lepidoptera: Noctuidae) that supports replication of nuclear polyhedrosis viruses from Spodoptera exigua and Autographa californica

A continuous cell line, designated UCR-SE-1, has been established from larvae of the beet armyworm, Spodoptera exigua (Lepidoptera: Noctuidae). The cell line was established from minced neonate larvae treated with collagenase, and is grown in a modified TNM-FH medium with an osmotic pressure of 400 mOsm. The cell line consists of a mixture of two cell types, epithelial-like cells and spindle-shaped cells, both of which grow as attached monolayers. The cell line has a population doubling time of 56 hr, and has undergone more than 100 serial passages. Greater than 90% of the spindle-shaped cells support replication of the multiple nucleocapsid nuclear polyhedrosis viruses from Spodoptera exigua and Autographa californica, although the epithelial-like cells support replication of the latter virus only.     

Preparation and molecular characterization of a polyclonal antibody as an efficient cutworm reference protein

Antibodies, which are wildly used in molecular researches, are proteins secreted by plasma cells that can specifically recognize specific antigens. To obtain a stable reference antibodies are important for protein analysis. In this study, a capable glyceraldehyde phosphate dehydrogenase (GAPDH) antiserum against most noctuid larval protein samples was prepared. Firstly, the full-length gapdh was amplified from Spodoptera exigua larvae to construct the prokaryotic expression vector. The purified His-tag fused GAPDH protein was used to immunize rabbits for the antiserum preparation. Protein samples extracted from 11 insect species distributed across seven families and three orders were used to perform the Western bolt analysis. The bright specific bands were detected in S. exigua, S. litura, Helicoverpa armigera, and Mythimna seperata protein samples, indicating that this antiserum may be capable of detecting noctuid larval encoded GAPDH. Further immunofluorescence identification of H. armigera and S. exigua paraffin section slides with GAPDH antiserum exhibited an identical cyto-stained image. The GAPDH antiserum prepared in this study is useful and efficient as reference antibodies in studies involving noctuid larval protein samples in other related fields.     

Characterization of the antiapoptotic (p35) gene homologue of Spodoptera litura nucleopolyhedrosis virus (SlNPV)

Antiapoptotic genes of baculoviruses have been shown to prevent virus induced apoptosis in insect cells. Dot blot and Southern hybridizations of EcoRI genomic library and genomic digests of Spodoptera litura nucleopolyhedrosis virus (SlNPV) respectively give strong hybridization signals with antiapoptotic DNA (p35 gene) probe of the prototype Autographa californica nucleopolyhedrosis virus (AcNPV). Both the hybridizations indicate the presence of a homologous gene in the 1.8 kb EcoRI-Y fragment of SlNPV. The sequence of 1.244 kb region of this fragment encompasses an open reading frame coding for a polypeptide of 296 amino acids under sequential early (TATA) and late (TAAG) promoter motifs like that in other baculovirus p35 genes. The putative SlNPV p35 ORF expresses abundantly as a 35 kDa protein in Spodoptera frugiperda (Sf9) cells when allowed to express under the polyhedrin promoter of AcNPV.     

Characterization of new <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> strains from Iran,based on cytocidal and insecticidal activity,proteomic analysis and gene content

Characterization of new Bacillus thuringiensis strains is a valuable tool to discover novel insecticidal toxins and to manage resistance problems. In this study, seven Iranian Bt strains were selected according to their toxicity against Plodia interpunctella, to be thoroughly characterized based on their toxicity, protein profiling, proteomic analysis, gene content and β-exotoxin production. The toxicity was assessed by insect bioassays and cell viability assays (a less cost, time and material consuming technique), using four lepidopteran pests and four lepidopteran cell lines from Trichoplusia ni (Hi5), Helicoverpa zea (HzGUT), Spodoptera exigua (UCR-SE) and Spodoptera frugiperda (Sf21). The selected Bt strains showed similar protein electrophoretic profiles, but differed in toxicity. LC–MS/MS analysis of solubilized crystal proteins and gene content analyses (PCR screening) were compared and correlated with the toxicity results. Based on our data, three Bt strains could be considered as candidates for development of future bioinsecticides.     

Biological and genetic characterization of a Pakistani isolate of Spodoptera litura nucleopolyhedrovirus

Spodoptera litura is an emerging insect pest in a wide range of crops worldwide. The insect is difficult to control because of resistance development to synthetic insecticides and emerging resistance to Bacillus thuringiensis toxins. Therefore, there is a need to develop biological control agents, preferably from an indigenous source to avoid risks associated with the importation of exotic natural antagonists. A Pakistani isolate of S. litura nucleopolyhedrovirus (SpltNPV, Baculoviridae), SpltNPV-Pak-BNG, was obtained from the field and characterized biologically and genetically, and compared to a SpltNPV reference isolate, SpltNPV-G1, thought to be of Chinese origin. The dose–mortality response (LD₅₀) of SpltNPV-Pak-BNG was not significantly different from that of the reference isolate SpltNPV-G1, but the time-to-death (LT₅₀) was significantly shorter for SpltNPV-Pak-BNG than for SpltNPV-G1. DNA restriction enzyme profiling indicated that SpltNPV-Pak-BNG and SpltNPV-G1 are different viruses. Sequence analysis of ‘ORF24’, specific for SpltNPV (and S. littoralis NPV as ORF21), and the conserved baculovirus core genes polyhedrin, DNApol, pif-2 and lef-8 confirmed that this was indeed the case and that SpltNPV-Pak-BNG is a genuine SpltNPV variant, whereas the SpltNPV-G1 isolate we used is, in fact, a SpliNPV variant, renamed to SpliNPV-G1. The newly isolated SpltNPV-Pak-BNG has the potential for development as a biocontrol agent of S. litura in Pakistan.     

Genome-wide patterns of copy number variations in Spodoptera litura

Spodoptera litura is a polyphagous pest and can feed on more than 100 species of plants, causing great damage to agricultural production. The SNP results showed that there were gene exchanges between different regions. To explore the variations of larger segments in S. litura genome, we used genome resequencing samples from 14 regions of China, India, and Japan to study the copy number variations (CNVs). We identified 3976 CNV events and 1581 unique copy number variation regions (CNVRs) occupying the 108.5 Mb genome of S. litura. A total of 5527 genes that overlapped with CNVRs were detected. Selection signal analysis identified 19 shared CNVRs and 105 group-specific CNVRs, whose related genes were involved in various biological processes in S. litura. We constructed the first CNVs map in S. litura genome, and our findings will be valuable for understanding the genomic variations and population differences of S. litura.