Virus particle packaging in baculovirus and cytoplasmic polyhedrosis virus inclusion bodies

The structure of the inclusion bodies (IBs) of three multiply enveloped nuclear polyhedrosis viruses (MNPVs), one singly enveloped NPV (SNPV), two granulosis viruses (GVs) and one cytoplasmic polyhedrosis virus (CPV) were compared. A method was devised to calculate the numbers of virus particles and nucleocapsids in IBs using data from light microscopy and thin sections. The three MNPVs, from Agrotis segetum (English and Polish virus isolates) and Mamestra brassicae had similar concentrations of virus particles ranging from 17.3 to 19.6 per μm³ of IB. Plusia gamma SNPV had a higher density of 59.6 virus particles per μm³ of IB, which partly compensated for its having smaller IBs (mean volume 0.65 μm³) than the MNPVs (2.60–9.71 μm³). The English A. segetum MNPV isolate had the most nucleocapsids in each virus particle (mean, 4.04) and the largest IBs (mean volume, 9.71 μm³), giving 674 nucleocapsids per IB on average. The GVs, from A. segetum and Pieris brassicae, mainly contained one nucleocapsid per IB. P. gamma CPV IBs had a much higher density of virus particles than the baculoviruses (260 per μm³ compared with 17–60 per μm³). These data are discussed in relation to the biological properties of these viruses, and possible adaptational advantages of alternative IB designs are considered.     

Isolation and characterization of a granulosis virus from the tomato moth,Lacanobia oleracea,and its potential as a control agent

A disease causing death in Lacanobia oleracea (Lepidoptera: Noctuidae) occurring in glasshouses in Scotland was shown to be caused by a granulosis virus (GV). Structural properties of the virus were examined by electron microscopy, immunodiffusion, polyacrylamide gel electrophoresis, and restriction endonuclease analysis and compared with an isolate of GV from L. oleracea obtained from France. The two isolates were structurally very similar but could be distinguished by analysis of EcoRI digests of their DNAs. Bioassays of the virus gave LD₅₀ values from 10^4.3 capsules for second-instar larvae to 10^6.6 capsules for fifth-instar larvae. The French isolate was bioassayed in third-instar larvae and was not found to differ significantlyfrom the Scottish isolate. Two small glasshouse trials using the virus to control artificial infestations of L. oleracea indicated that high-volume sprays of virus at 10⁸ to 10⁹ capsules/ml achieved good control. An alternative strategy using much smaller amounts of virus to control the insect is discussed.     

Localization of N6-methyladenosine in the Rous sarcoma virus genome.

The 10,000-nucleotide RNA genome of the Prague strain, subgroup B (PR-B) of Rous sarcoma virus, was found to contain 11.6 ± 0.5 residues of m⁶Ap by quantitative analysis of ³²P-labeled virion RNA after complete RNAase digestion. Approximately ten of the m⁶Ap residues are located, without obvious clustering, in that region of the genome between 500 and 4000 nucleotides from the 3′ poly(A) end. The src gene, which is required for transformation, and part of the env gene, which codes for the major viral envelope glycoprotein, have previously been mapped in this region of the viral genome. A transformation-defective deletion mutant of PR-B Rous sarcoma virus, which lacks the src gene, has 7.0 ± 0.2 m⁶Ap residues per RNA subunit. This supports our mapping of a portion of the m⁶A residues in src and suggests that this methylation is specific to certain regions of the genome. The possible significance of this result for Rous sarcoma virus RNA processing and translation is discussed.     

The susceptibility of the pea moth, Cydia nigricana, to infection by the granulosis virus of the codling moth, Cydia pomonella

Laboratory studies demonstrated that neonate larvae of the pea moth, Cydia nigricana, are susceptible to infection with a granulosis virus (CpGV) isolated from the codling moth, Cydia pomonella. Comparative LC₅₀ values for C. nigricana and C. pomonella are 1.90 × 10⁵ and 1.54 × 10⁴ capsules/ml of diet, respectively. The virus extracted from CpGV-infected pea moth larvae is serologically related, and probably identical, to CpGV.     

A newly isolated densonucleosis virus from Pseudoplusia includens (Lepidoptera: Noctuidae)

An icosahedral DNA virus isolated from the soybean looper, Pseudoplusia includens, was characterized. Purified virus had a diameter of 20 ± 1 nm and negatively stained preparations showed a trend to form linear to three-dimensional crystals. The virus had a sedimentation coefficient of 120 ± 3 S and a buoyant density of 1.40 ± 0.01 g/cm³. The DNA content of the virus was 37.8 ± 0.1% and the absorption spectrum showed it to be a typical nucleoprotein. Viral DNA in situ was shown to be single-stranded by staining the virus with acridine orange as well as by reaction to formaldehyde. Evidence of inverted terminal repetition of the DNA was observed by electron microscopy. The terminal repetition comprises ca. 6–7% of the genome. The molecular weight of the ssDNA was 2.0 ± 0.1 × 10⁶ as determined by agarose gel electrophoresis or 2.1 ± 0.1 × 10⁶ as determined by electron microscopy. Four virion proteins with molecular weights of 46.5 ± 0.1, 54.0 ± 0.1, 64.0 ± 0.2, and 87.0 ± 0.1 × 10³ were detected by 9% SDS-polyacrylamide gel electrophoresis. Double-diffusion tests showed the virus to be serologically related but not identical to DNV-1. Ultrathin sections showed that the nucleus of the hemocyte, muscle, hypodermal, and fat body cells contained virus-like particles. The chromatin of an infected nucleus always underwent a margination and the nucleoplasm was often replaced largely by virions.Data indicate that the virus belongs to the Densovirus of the family Parvoviridae.     

Histopathology and bioassay of Plathypena scabra granulosis virus

A granulosis virus was found infecting Plathypena scabra larvae in Iowa. The capsules averaged 377 ± 25 × 222 ± 19 nm. On the basis of light microscopical observations, the virus appeared to infect the epidermis, fat body, and tracheal matrix cells. The LC₅₀ and LC₉₅ were 6.7 × 10⁷ and 1.5 × 10⁹ capsules/acre, respectively. The LT₅₀ values varied from 3 to 9 days for 1 × 10¹² and 1 × 10⁸ capsules/acre, respectively.     

Restriction map of CELO virus DNA

A restriction map of chicken embryo lethal orphan (CELO) virus DNA was reported with ten restriction endonucleases (XbaI, XhoI, SalI, HindIII, EcoRI, BglI, KpnI, BamHI, PstI and SstI). CELO virus DNA was estimated by comparing CELO virus DNA fragments with marker DNA fragments to have a molecular weight of 29.3·10⁶.     

Characterization of a rearrangement in viral DNA: mapping of the circular simian virus 40-like DNA containing a triplication of a specific one-third of the viral genome

Serial passage of the non-defective form of a simian virus 40-like virus (DAR) isolated from human brain results in the appearance of three distinct classes of supercoiled DNAs: R_I resistant, R_I sensitive (one cleavage site) and R_I “supersensitive” (three cleavage sites). The R_I cleavage product of the “super sensitive” form is one-third the physical size of simian virus 40 DNA (10.4 S) and reassociates about three times more rapidly than “standard” viral DNA. To identify the portions of the DAR genome present in the 10.4 S segment, the plus strand of each of the 11 fragments of ³²P-labeled simian virus 40 DNA, produced by cleavage with the Hemophilus influenzae restriction endonuclease, was hybridized in solution with the sheared R_I cleavage product of the “supersensitive” class of viral DNA. Reaction was observed with fragments located in two distinct regions of the simian virus 40 genome: (1) Hin-A and C; (2) Hin-G, J, F and K.Further studies indicated that simian virus 40 complementary RNA transcribed in vitro with Escherichia coli RNA polymerase from one strand of simian virus 40 DNA reacts with both strands of the denatured 10.4 S cleavage product when hybridization is monitored with hydroxyapatite. Treatment of the 10.4 S DNA-simian virus 40 cRNA hybrid with the single-strand spcific nuclease, S₁, converted approximately 50% of the radioactive counts to an acid-soluble product. These results indicate that the 10.4 S product contains a transposition of sequences originally present on one of the DAR DNA strands to the other strand. Examination of heteroduplexes formed between the 10.4 S segment and unique linear forms of DAR DNA produced with the R · Eco RI restriction endonuclease have confirmed these observations. Thus it appears that a molecular rearrangement(s) has resulted in the recombination and inversion of viral DNA sequences from two separate loci on the parental DAR genome. This 1.1 × 10⁶ dalton segment is reiterated three times in a supercoiled molecule equivalent in physical size to parental DAR DNA.     

Triplication of a unique genetic segment in a simian virus 40-like virus of human origin and evolution of new viral genomes

The non-defective (heavy) virions from a simian virus 40-like virus (DAR virus) isolated from human brain have been serially passaged at high input multi-plicities in primary monkey kidney cells. The ³²P-labeled, progeny DAR-viral genomes have been purified and tested for sensitivity to the R_I restriction endouclease from Escherichia coli (Eco RI3 restriction nuclease). The parental DAR-viral genomes share many physical properties with “standard” simian virus 40 DNA and are cleaved once by the Eco RI restriction nuclease. After the fourth serial passage, three populations of genomes could be distinguished: Eco RI resistant, Eco RI sensitive (one cleavage site) and Eco RI “supersensitive” (three, symmetrically-located, cleavage sites). The Eco RI cleavage product of the “supersensitive” form is one-third the physical size (10.4 S) of simian virus 40 DNA and reassociates about three times more rapidly than sheared, denatured simian virus 40 DNA. From the fourth to the eighth serial passages, the genomes containing this specific triplication of viral DNA sequences were selected for and became the predominant viral DNA species.     

Characterization of a cytoplasmic polyhedrosis virus from Estigmene acrea (Lepidoptera)

A cytoplasmic polyhedrosis virus (CPV) containing a segmented double-stranded RNA genome was isolated from Estigmene acrea larvae by isopycnic centrifugation in a sucrose density gradient. Ten double-stranded RNA segments with molecular weights (MW) from 2.8 to 0.67 × 10⁶ were separated by agarose gel electrophoresis. A total of ten virus proteins ranging from 14,000 to 128,000 MW were detected after separation by sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis. A MW of 28,500 was determined for E. acrea CPV occlusion body protein.     

Quantitative and qualitative features of heterologous virus-vector-induced antigen-specific CD8 T cells against Trypanosoma cruzi infection

We studied some aspects of the quantitative and qualitative features of heterologous recombinant (re) virus-vector-induced, antigen-specific CD8⁺ T cells against Trypanosoma cruzi. We used three different, highly attenuated re-viruses, i.e., influenza virus, adenovirus and vaccinia virus, which all expressed a single, T. cruzi antigen-derived CD8⁺ T-cell epitope. The use of two out of three vectors or the triple virus-vector vaccination regimen not only confirmed that the re-vaccinia virus, which was placed last in order for sequential immunisation, was an effective booster for the CD8⁺ T-cell immunity in terms of the number of antigen-specific CD8⁺ T cells, but also demonstrated that (i) the majority of cells exhibit the effector memory (T_EM) phenotype, (ii) robustly secrete IFN-γ, (iii) express higher intensity of the CD122 molecule and (iv) present protective activity against T. cruzi infection. In contrast, placing the re-influenza virus last in sequential immunisation had a detrimental effect on the quantitative and qualitative features of CD8⁺ T cells. The triple virus-vector vaccination was more effective at inducing a stronger CD8⁺ T-cell immunity than using two re-viruses. The different quantitative and qualitative features of CD8⁺ T cells induced by different immunisation regimens support the notion that the refinement of the best choice of multiple virus-vector combinations is indispensable for the induction of a maximum number of CD8⁺ T cells of high quality.     

Dosage-mortality and time-mortality responses of the armyworm Spodoptera exempta to a nuclear polyhedrosis virus

Third-instar Spodoptera exempta larvae were fed on young maize leaves treated with 20 μl of polyhedral inclusion body (PIB) suspension of concentrations that varied from 1.6 × 10² to 1.6 × 10⁹ PIBs/ml. Daily observations were kept on mortality rates. A probit analysis on the results gave an LD₅₀ value of 48.4 PIBs/larva (lower and upper fiducial limits 39.2 and 59.4 PIBs/larva, respectively), and an LT₅₀ that varied from 146.2 to 221.3 hr, depending on the dosage. LD and LT values obtained show the high pathogenicity of S. exempta nuclear polyhedrosis virus to its host.     

Neutralizing single-chain antibodies against the tick-borne encephalitis virus

A recombinant pSC13D6 plasmid DNA was constructed based on cDNA fragments of genes encoding variable domains of heavy and light chains of the MKA13D6 monoclonal antibody against glycoprotein of the tick-borne encephalitis (TBE) virus. This plasmid provided expression in Escherichia coli cells of the scl3D6 single-chain antibody against the TBE virus. The produced antibodies could bind to the TBE virus, strain 205, and the TBE virus recombinant E protein. The affinity constant of purified scl3D6 was (3.0 ± 0.2) × 10⁷ M^?1 for the equilibrium state and (2.8 ± 0.3) × 10⁷ M^?1 in the case of antigen-antibody formation on the surface. The obtained single-chain antibody could inhibit the infection potency of the TBE virus on a monolayer of eukaryotic cells. The calculated IC₅₀ value for scl3D6 was 16.7 μg/ml.     

Differential viral levels and immune gene expression in three stocks of Apis mellifera induced by different numbers of Varroa destructor

The viral levels and immune responses of Italian honey bees (IHB), Russian honey bees (RHB) and an outcross of Varroa Sensitive Hygienic bees (POL) deliberately infested with one or two foundress Varroa were compared. We found that the Deformed wing virus (DWV) level in IHB inoculated with one or two foundress Varroa increased to about 10³ or 10⁵ fold the levels of their uninfested brood. In contrast, POL (10² or 10⁴ fold) and RHB (10² or l0⁴ fold) supported a lower increase in DWV levels. The feeding of different stages of Varroa nymphs did not increase DWV levels of their pupal hosts. Analyses of their corresponding Varroa mites showed the same trends: two foundress Varroa yielded higher DWV levels than one foundress, and the addition of nymphs did not increase viral levels. Using the same pupae examined for the presence of viruses, 16 out of 24 genes evaluated showed significant differential mRNA expression levels among the three honey bee stocks. However, only four genes (Defensin, Dscam, PPOact and spaetzle), which were expressed at similar levels in uninfested pupae, were altered by the number of feeding foundress Varroa and levels of DWV regardless of stocks. This research provides the first evidence that immune response profiles of different honey bee stocks are induced by Varroa parasitism.     

Possible function for virus encoded K+ channel Kcv in the replication of chlorella virus PBCV-1

The K⁺ channel Kcv is encoded by the chlorella virus PBCV-1. There is evidence that this channel plays an essential role in the replication of the virus, because both PBCV-1 plaque formation and Kcv channel activity in Xenopus oocytes have similar sensitivities to inhibitors. Here we report circumstantial evidence that the Kcv channel is important during virus infection. Recordings of membrane voltage in the host cells Chlorella NC64A reveal a membrane depolarization within the first few minutes of infection. This depolarization displays the same sensitivity to cations as Kcv conductance; depolarization also requires the intact membrane of the virion. Together these data are consistent with the idea that the virus carries functional K⁺ channels in the virion and inserts them into the host cell plasma membrane during infection.     

Analysis of the Solvent Accessibility of Cysteine Residues on Maize rayado fino virus Virus-like Particles Produced in Nicotiana benthamiana Plants and Cross-linking of Peptides to VLPs

Mimicking and exploiting virus properties and physicochemical and physical characteristics holds promise to provide solutions to some of the world''s most pressing challenges. The sheer range and types of viruses coupled with their intriguing properties potentially give endless opportunities for applications in virus-based technologies. Viruses have the ability to self- assemble into particles with discrete shape and size, specificity of symmetry, polyvalence, and stable properties under a wide range of temperature and pH conditions. Not surprisingly, with such a remarkable range of properties, viruses are proposed for use in biomaterials ⁹, vaccines ^{14, 15}, electronic materials, chemical tools, and molecular electronic containers^{4, 5, 10, 11, 16, 18, 12}.In order to utilize viruses in nanotechnology, they must be modified from their natural forms to impart new functions. This challenging process can be performed through several mechanisms including genetic modification of the viral genome and chemically attaching foreign or desired molecules to the virus particle reactive groups ⁸. The ability to modify a virus primarily depends upon the physiochemical and physical properties of the virus. In addition, the genetic or physiochemical modifications need to be performed without adversely affecting the virus native structure and virus function. Maize rayado fino virus (MRFV) coat proteins self-assemble in Escherichia coli producing stable and empty VLPs that are stabilized by protein-protein interactions and that can be used in virus-based technologies applications ⁸. VLPs produced in tobacco plants were examined as a scaffold on which a variety of peptides can be covalently displayed ¹³. Here, we describe the steps to 1) determine which of the solvent-accessible cysteines in a virus capsid are available for modification, and 2) bioconjugate peptides to the modified capsids. By using native or mutationally-inserted amino acid residues and standard coupling technologies, a wide variety of materials have been displayed on the surface of plant viruses such as, Brome mosaic virus ³, Carnation mottle virus ¹², Cowpea chlorotic mottle virus ⁶, Tobacco mosaic virus ¹⁷, Turnip yellow mosaic virus ¹, and MRFV ¹³.     

Modulation of Potassium Channels Inhibits Bunyavirus Infection

Bunyaviruses are considered to be emerging pathogens facilitated by the segmented nature of their genome that allows reassortment between different species to generate novel viruses with altered pathogenicity. Bunyaviruses are transmitted via a diverse range of arthropod vectors, as well as rodents, and have established a global disease range with massive importance in healthcare, animal welfare, and economics. There are no vaccines or anti-viral therapies available to treat human bunyavirus infections and so development of new anti-viral strategies is urgently required. Bunyamwera virus (BUNV; genus Orthobunyavirus) is the model bunyavirus, sharing aspects of its molecular and cellular biology with all Bunyaviridae family members. Here, we show for the first time that BUNV activates and requires cellular potassium (K⁺) channels to infect cells. Time of addition assays using K⁺ channel modulating agents demonstrated that K⁺ channel function is critical to events shortly after virus entry but prior to viral RNA synthesis/replication. A similar K⁺ channel dependence was identified for other bunyaviruses namely Schmallenberg virus (Orthobunyavirus) as well as the more distantly related Hazara virus (Nairovirus). Using a rational pharmacological screening regimen, two-pore domain K⁺ channels (K_2P) were identified as the K⁺ channel family mediating BUNV K⁺ channel dependence. As several K_2P channel modulators are currently in clinical use, our work suggests they may represent a new and safe drug class for the treatment of potentially lethal bunyavirus disease.     

Reactive oxygen species delay control of lymphocytic choriomeningitis virus

Cluster of differentiation (CD)8⁺ T cells are like a double edged sword during chronic viral infections because they not only promote virus elimination but also induce virus-mediated immunopathology. Elevated levels of reactive oxygen species (ROS) have been reported during virus infections. However, the role of ROS in T-cell-mediated immunopathology remains unclear. Here we used the murine lymphocytic choriomeningitis virus to explore the role of ROS during the processes of virus elimination and induction of immunopathology. We found that virus infection led to elevated levels of ROS producing granulocytes and macrophages in virus-infected liver and spleen tissues that were triggered by the nicotinamide adenine dinucleotide phosphate (NADPH) oxidase. Lack of the regulatory subunit p47phox of the NADPH oxidase diminished ROS production in these cells. While CD8⁺ T cells exhibited ROS production that was independent of NADPH oxidase expression, survival and T-cell function was elevated in p47phox-deficient (Ncf1^−/−) mice. In the absence of p47phox, enhanced T-cell immunity promoted virus elimination and blunted corresponding immunopathology. In conclusion, we find that NADPH-mediated production of ROS critically impairs the immune response, impacting elimination of virus and outcome of liver cell damage.     

Comparison of bioassay and enzyme-linked immunosorbent assay for quantification of Spodoptera frugiperda nuclear polyhedrosis virus in soil

Standard curves with known amounts of Spodoptera frugiperda nuclear polyhedrosis virus (NPV) in soil were established with a bioassay and with an enzyme-linked immunosorbent assay (ELISA). The bioassay detected as few as 4 × 10⁴ polyhedral inclusion bodies (PIB)/g sandy soil and <10 PIB/g soils with large amounts of silt or clay. The ELISA detected as few as 360 PIB/g in all three soil types, and absorbance values were inversely related to the amount of clay. Results of the bioassay and ELISA were significantly (P < 0.01) correlated for natural NPV from field samples of silt (R = 0.961) and sandy soil (R = 0.723). Soil samples from Louisiana pastures and corn fields contain up to 7.6 × 10⁴ PIB/g, and 2× 10⁴ PIB/g are commonly present.     

A comparative study of three closely related cytoplasmic polyhedrosis viruses

A cytoplasmic polyhedrosis virus (CPV) from the pine caterpillar, Dendrolimus spectabilis, was compared with Japanese isolates of closely related viruses from the silkworm, Bombyx mori, and gypsy moth, Lymantria dispar. The sizes of the viral RNA genome segments were almost identical, although the CPVs from D. spectabilis and L. dispar could be distinguished from the silkworm virus by a small size difference (0.03 × 10⁶ daltons) in one segment. The same viruses were also distinguishable by RNA homology differences of 25–50% measured by the reannealing of ³H-labeled single-stranded viral messenger RNA (synthesized in vitro) to heat-denatured viral double-stranded RNA. Antigenic differences were also detected by gel immunodiffusion tests. CPVs of D. spectabilis and L. dispar were indistinguishable by these criteria.