Shohei Okuno

Genetic and biological comparisons of ten geographic isolates of a nucleopolyhedrovirus that infects Spodoptera litura (Lepidoptera: Noctuidae)

Abstract Nine nucleopolyhedrovirus (NPV) isolates from Japan, Vietnam, Malaysia, and India collected from diseased Spodoptera litura larvae and an Egyptian isolate of Spodoptera littoralis NPV were subjected to genetic and biological comparisons to select a candidate isolate for controlling S. litura. In restriction endonuclease (REN) analysis, submolar bands were detected in 6 of the 10 isolates, showing that these viral populations consisted of a mixture of several genotypes. Based on equimolar bands, the isolates could be broadly divided into two groups: S. litura NPV-type and S. littoralis NPV-type. Four isolates from Southern and Southeast Asia and one from the Ogasawara Islands in Japan had S. litura NPV-type REN profiles. Four isolates from the main island of Japan had REN profiles closely related to the Egyptian isolate, S. littoralis NPV-B, suggesting that S. littoralis NPV-B type is widely distributed in Japan. Droplet feeding bioassays with second and fourth instar larvae showed no evidence of differences in biological activity among the 10 isolates based on the infectivity and survival time of infected larvae.

Viral-enhancing activity of various stilbene-derived brighteners for a Spodoptera litura (Lepidoptera: Noctuidae) nucleopolyhedrovirus

Abstract Previous reports have shown that stilbene-derived optical brighteners enhance viral activity in some baculovirus–lepidopteran host systems. To investigate the relationship between chemical structure and enhancement activity, we synthesized 11 stilbene-derived brighteners and compared their enhancing activity with a nucleopolyhedrovirus (NPV) with that of Tinopal UNPA-GX in common cutworm larvae, Spodoptera litura . Tinopal UNPA-GX significantly increased larval susceptibility to NPV infection, and the LD 50 of NPV was reduced about 2200-fold by the addition of 1% Tinopal to the virus suspension. Five of the 11 brighteners enhanced NPV infection to a similar extent as Tinopal, and one brightener enhanced virus infection more effectively than Tinopal. Replacing the diethyl amino group of Tinopal UNPA-GX with other chemical groups changed the enhancing activity of the brighteners. In addition, disruption of the peritrophic membrane (PM) was observed only when the cutworm larvae were given brighteners that had viral-enhancing activity. This suggests that brighteners disrupt the PM that lines the insect midgut and facilitate NPV infection of midgut epithelial cells.

Characterization of Adoxophyes honmai single-nucleocapsid nucleopolyhedrovirus: morphology, structure, and effects on larvae

A nucleopolyhedrovirus (NPV) was isolated from a diseased larva of the smaller tea tortrix, Adoxophyes honmai, collected from a tea field in Tsukuba, Ibaraki, Japan. Electron microscopic observations confirmed that A. honmai NPV (AdhoNPV) was a single-nucleocapsid type virus. The genome size of AdhoNPV was estimated to be 111.6 +/- 0.9kb (mean +/- SE) by restriction endonuclease analysis. AdhoNPV was also infectious to two other Adoxophyes species, the summer fruit tortrix Adoxophyes orana and Adoxophyes dubia. The LD50 values for neonatal, second, third, fourth, and fifth (final) instar larvae of A. honmai were determined as 61, 107, 688, 1,961, and 4,085 occlusion bodies/insect, respectively. Most of the infected larvae died 5-9 days after molting to the final instar, regardless of the timing of inoculation. However, when neonates were exposed to extremely high doses of AdhoNPV (greater than 100 x LD90), larval development was prevented and most of the larvae died in the first instar.

Fitness-related traits of entomopoxviruses isolated from Adoxophyes honmai (Lepidoptera: Tortricidae) at three localities in Japan

Three entomopoxviruses (EPVs) isolated from diseased Adoxophyes honmai larvae at different localities (Tsukuba, Itsukaichi, and Miyazaki) in Japan were compared for biochemical identity and key parameters of virus fitness, fatal infection, speed of kill, and virus yield. When the structural peptides of occlusion bodies (OBs) and occlusion-derived viral particles were compared using sodium dodecyl sulfate-polyacrylamide gel electrophoresis, no difference in banding patterns was observed. However, DNA restriction endonuclease analysis showed that the three isolates were genotypically different, but many commonly sized DNA fragments were observed. Five tortricid species, A. honmai, Adoxophyes orana, Adoxophyesdubia, Homona magnanima, and Archips insulanus were susceptible to all isolates. No significant differences in the key viral fitness parameters were detected among the isolates in A. orana. However, the Miyazaki isolate had a different effect on H. magnanima; it allowed infected insects to survive longer and develop to a larger size, but had a lower yield of OBs per larva at any given time to death. OB yields per unit cadaver weight for the Miyazaki isolate, which indicate the conversion rate of the insect to virus, were lower over time compared to the other two isolates. The implications for selecting a candidate isolate to control tortricid pests are discussed.

Isolation of a protein lethal to the endoparasitoid Cotesia kariyai from entomopoxvirus-infected larvae of Mythimna separata.

Virion-free plasma from entomopoxvirus (MyseEPV)-infected larvae of the armyworm, Mythimna separata, contains a factor that adversely affects the survival of the gregarious braconid endoparasitoid, Cotesia kariyai. Heating or proteinase K treatment eliminates the toxic effect of virion-free plasma on the parasitoid, suggesting that the lethal factor is a protein. We purified the Protein Lethal to C. kariyai larvae (PLCK) from the virion-free plasma of MyseEPV-infected M. separata larvae by a three-step procedure using gel filtration and cation-exchange chromatography. Toxic activity was measured using an in vitro-cultured parasitoid bioassay. Parasitoid larvae cultured in IPL-41 medium (Weiss et al., In vitro 17 (1981), 495) containing 4.7 microg/ml purified PLCK shrank and died within 3days. The molecular weight of PLCK was estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis to be about 28,000, under both reducing and non-reducing conditions, indicating that in its native form the protein is a single 28-kDa polypeptide. Western blot analysis indicated that the lethal protein is not present in the hemolymph of uninfected host larvae, but is induced in the hemolymph by infection with MyseEPV. Western blot analysis also indicated that the proteins of virions and occlusion bodies of MyseEPV are not serologically related to PLCK.

Acquired resistance to a nucleopolyhedrovirus in the smaller tea tortrix Adoxophyes honmai (Lepidoptera: Tortricidae) after selection by serial viral administration

A laboratory colony of Adoxophyes honmai was selected for resistance over 156 generations by feeding neonate larvae of every generation with the LC60 or LC70 of its nucleopolyhedrovirus, Adoxophyes honmai nucleopolyhedrovirus (AdhoNPV). A significant difference in LC50 values between the selected (R-strain) and unselected (S1- and S2-strain) strains was first observed after three generations of selection, and the resistance level then increased continuously. The highest degree of acquired resistance, based on the ratio of the LC50 values of R- and S1-strains, was more than 400,000-fold. After selection was stopped at either the 21st or the 149th generation, LC50 values did not decrease significantly, suggesting that resistance of the R-strain to AdhoNPV was stable. To assess which of the two routes of baculovirus infection is affected by resistance to AdhoNPV, 5th instar larvae of the R-strain were inoculated orally and intrahemocoelically with AdhoNPV and their susceptibility was compared to that of S-strain. The ratio of the LC25 values of selected and unselected strains was 91-fold when budded viruses were injected into 5th instar larvae, but was 107,000-fold after oral inoculation. These results indicate that the resistance mechanism of the R-strain of A. honmai disrupts both midgut primary infection and hemocoelic secondary infection.

Genetic and phenotypic comparisons of viral genotypes from two nucleopolyhedroviruses interacting with a common host species, Spodoptera litura (Lepidoptera: Noctuidae).

Nucleopolyhedroviruses (NPVs) are known to be highly variable, both genetically and phenotypically, at several scales such as different geographic locations or a single host. A previous study using several geographic isolates indicated that two types of NPV, Spodoptera littoralis NPV (SpliNPV) and S. litura NPV (SpltNPV) types, were isolated from the common cutworm, Spodoptera litura (Fabricius), a polyphagous insect that causes serious damage to many forage crops and vegetables. That study also indicated that the SpliNPV type was widely distributed in Japan. Here, we investigated the genotypic and phenotypic variation of cloned NPVs that infect S. litura; such variation is an important resource for biological control agents, and may represent the genetic diversity of an NPV species. Eighteen genotypically distinct NPVs were cloned from four field-collected NPV isolates using an in vivo cloning technique. They were divided into two virus types according to the similarity of banding patterns of DNA fragments generated by restriction endonucleases, and Southern hybridization analysis. Partial polyhedrin gene sequences revealed that the two types corresponded to SpliNPV and SpltNPV. Bioassays seem to suggest that the SpliNPV virus type was, overall, more infectious and killed S. litura larvae faster, but yielded fewer viral occlusion bodies, than the SpltNPV type. These data provide a basis for explaining the distribution pattern of SpliNPV and SpltNPV types in S. litura populations in Japan.