Host range and virulence of five baculoviruses from lepidopterous hosts

The host range and virulence of five insect baculoviruses (two multiply-enveloped nuclear polyhedrosis viruses (MNPVs) from Agrotis segetum and Mamestra brassicae; one singly-enveloped NPV from Plusia gamma and two granulosis viruses (GVs) from A. segetum and Pieris brassicae) were studied for seven lepidopterous pests of temperate agriculture (A. segetum, Agrotis exclamationis, Lacanobia oleracea, M. brassicae, Noctua pronuba, P. gamma and Pieris rapae). None of the viruses killed all species but M. brassicae MNPV failed to infect only P. rapae. The other viruses were restricted to the homologous host, or members of its genus or subfamily. In all examples except A. segetum GV, the median lethal dose for the most susceptible host, was less than 22 virus inclusion bodies and median lethal times for all infections ranged from 5·5 to 16·6 days. The low susceptibility of A. segetum and other noctuids to GV infections is discussed in relation to the structure of inclusion bodies and the nature of the infectious unit in baculoviruses.     

Polypeptide analysis of genotypic variants of occluded Heliothis spp. baculoviruses

The structural polypeptides of 12 baculovirus isolates which included nuclear polyhedrosis viruses (NPVs) and granulosis viruses (GVs) obtained from four different species of the insect genus Heliothis collected in different geographical regions of the world were characterized using sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The matrix proteins were compared according to their molecular weights and peptide profiles produced after limited proteolysis. Examination of the matrix and virion polypeptide profiles revealed three major polypeptide phenotypes which corresponded to the three baculovirus morphological groups; singly embedded nuclear polyhedrosis viruses (SNPVs), multiply embedded nuclear polyhedrosis viruses (MNPVs), and granulosis viruses (GVs). Enveloped nucleocapsid polypeptide profiles of isolates within each NPV phenotype differed in only one polypeptide whereas the two GV isolates differed by as many as five polypeptides. Nucleocapsid polypeptide profiles of isolates within each of the NPV subgroups were identical while those profiles from the GV nucleocapsids differed slightly in molecular weight of one polypeptide.     

Activation of latent virus infections in larvae of Adoxophyes orana (Lepidoptera: Tortricidae) and Barathra brassicae (Lepidoptera: Noctuidae) by foreign polyhedra

The number of larvae containing polyhedra increased when larvae of Adoxophyes orana and Barathra brassicae were fed on polyhedra of nuclear polyhedrosis virus (NPV) of the reciprocal species. Comparison of restriction endonuclease EcoRI cleavage patterns of DNA isolated from polyhedra used as inocula and from polyhedra obtained after cross-inoculation showed that cross infection did not occur. The observations indicate that latent viruses were activated in both insects. Activation of the A. orana latent NPV with polyhedra of a cytoplasmic polyhedrosis virus (CPV) of B. brassicae, and cross-inoculation with an extract prepared from healthy larvae indicated that an activating agent does not have to be a component of nuclear polyhedra.     

The replication of a cytoplasmic polyhedrosis virus from Chrysodeixis eriosoma (Lepidoptera: Noctuidae) in Spodoptera frugiperda cells

A cytoplasmic polyhedrosis virus (CPV) from Chrysodeixis eriosoma (Lepidoptera: Noctuidae) replicated in Spodoptera frugiperda cells. Low rates of infection were achieved, even at high multiplicities of infection and TCID₅₀ assays showed that there was negligible release of virus particles from infected cells. In an infected focus assay, based on formation of PIB, the dose-response data demonstrated that a single particle could initiate infection. No loss of infectivity occurred in virus preparations stored at 4°, ?20°, or ?90°C, but infectivity of virus stored at 20°C declined sharply. A small isometric virus contaminant was present in some CPV preparations and its interaction with the CPV is discussed. Limited CPV infection was achieved in Trichoplusia ni cells, but attempts to infect Aedes aegypti cells were unsuccessful.     

Oxygen uptake in tobacco budworm larvae (Heliothis virescens) infected with cytoplasmic polyhedrosis virus

We measured oxygen uptake in 3- to 13-day-old Heliothis virescens (tobacco budworm) larvae. The “test” group was infected with cytoplasmic polyhedrosis virus (CPV) while the “control” group was not. The healthy budworms had an average oxygen uptake of 7.64 μl of O₂/mg body weight, while those infected with CPV had an average uptake of 47.11 μl of O₂/mg body weight/hr. The weights of larvae from the two groups were likewise recorded. Budworms from the “control” group showed an average weight of 186.9 mg, while larvae infected with CPV had an average weight of 18.3 mg.     

Identification of two nuclear polyhedrosis viruses from the cabbage moth, Mamestra brassicae (Lepidoptera: Noctuidae)

Two nuclear polyhedrosis viruses from the cabbage moth Mamestra brassicae found in two geographical areas in Europe have been characterized and compared. These two virus isolates have similar biological activities and have the same host range. The two M. brassicae nuclear polyhedrosis viruses can be distinguished by restriction endonuclease analysis of their DNA. They appear to be distinct but related virus strains.     

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.     

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.     

Serological relationships among plusiinae baculoviruses

Antisera were produced against nucleocapsids, NP-40 detergent soluble proteins, or polyhedral protein of the multiply embedded nuclear polyhedrosis virus (MNPV) of Autographa californica, nucleocapsids of Trichoplusia ni singly embedded virus (SNPV), and polyhedral protein of Lymantria dispar MNPV. Antigens consisting of nucleocapsids, NP-40 soluble proteins, and polyhedral protein were prepared from A. californica MNPV, T. ni MNPV, L. dispar MNPV, Rachiplusia ou MNPV, T. ni SNPV, and Pseudoplusia includens SNPV. Radial immunodiffusion patterns formed with Plusiinae nucleocapsid antigens and antiserum to nucleocapsids of A. californica MNPV or T. ni SNPV revealed a distinction between multiply and singly embedded viruses. The same alignment of Plusiinae viruses was observed in reactions between A. californica NP-40 soluble protein antiserum and the NP-40 soluble protein fractions from the Plusiinae NPVs. There were no reactions between the Plusiinae SNPV nucleocapsid antigens and the A. californica MNPV nucleocapsid antiserum. However, there were faint precipitin bands between MNPV nucleocapsid antigens and T. ni SNPV nucleocapsid antiserum. Each of the polyhedral protein fractions from the Plusiinae formed a single precipitin band with the antiserum to polyhedral protein of either A. californica or L. dispar. The precipitin bands formed with the A. californica antiserum by polyhedral proteins of T. ni SNPV, P. includens SNPV, and R. ou MNPV were confluent, and shared partial identity with those formed by A. californica MNPV and T. ni MNPV. All precipitin bands formed by Plusiinae polyhedral proteins against antiserum to L. dispar polyhedral protein were confluent, and shared partial identity with that formed by L. dispar polyhedral protein.     

Selection of nuclear polyhedrosis viruses as biological control agents ofSpodoptera exigua [Lep.: Noctuidae]

The virulence of 5 nuclear polyhedrosis viruses infectious for larvae of beet armyworm,Spodoptera exigua, was studied and their potential as biological control agents of this accidentally introduced pest in Dutch greenhouse crops is discussed. Three of the virus isolates were collected from deceased beet armyworm larvae found in Dutch greenhouses. Based on restriction endonuclease patterns of their DNA they appeared to be closely related toMamestra brassicae nuclear polyhedrosis virus (MbMNPV) and therefore were named MbMNPV-NL80, MbMNPV-NL82 and MbMNPV-NL83. These isolates were not related toAutographa californica MNPV (AcMNPV) or toSpodoptera exigua MNPV (SeMNPV), both originating from the USA. Comparison of the oiological activity of these 5 isolates showed that the SeMNPV was more virulent against beet armyworm than the other isolates. There was no significant difference in virulence between MbMNPV-NL80, NL82, NL83 and AcMNPV forS. exigua. The LD-50 values of the 5 isolates for 2nd instar larvae were 3, 26, 14, 17 and 18 polyhedra, respectively. Despite compensating qualities of the other MNPVs, such as a broader host range and potential production in alternate hosts or cell-lines, SeMNPV is considered to be the most suitable candidate as biological control agent of beet armyworm.      

The movement and invasion of an insect baculovirus in tracheal cells of the armyworm, Pseudaletia unipuncta

The hypertrophy nuclear polyhedrosis virus of the armyworm, Pseudaletia unipuncta, causes a unique gradient of infected cells to form on the trachea. The movement and invasion of the virus apparently were not through adjacent intercellular membranes. The enveloped viruses emerged from the initially infected cell into an area between the cell plasma membrane and basal lamina, and then entered the uninfected tracheal cell either by lateral attachment and fusion of the viral envelope and the plasma membrane or by viropexis. The two methods of viral invasion into the cell suggest the presence of at least two phenotypically different enveloped viruses. Viropexis was initiated with an alignment of the peplomer spikes with regularly spaced, short radial striations on the inner coat of the plasma membrane. At a late state in viropexis, the viral envelope fused with the vacuole membrane, and an opening developed below the site of membrane fusion through which the nucleocapsid might enter the cytoplasm. Some nucleocapsids in membrane-lined vesicles resulting from viropexis appeared to be in a state of dissolution. Naked nucleocapsids were found along the nuclear envelope and within the nucleoplasm. No uncoating of the nucleocapsids was observed at the nucleopores, but uncoating seemed to occur in the nucleoplasm. Nucleocapsids were also found in the cytoplasm of nonsusceptible fat body cells, in which virus replication was not observed.     

我国蚊虫分离的一种新型胞质多形体病毒

0507BS3是从中国新疆喀什地区采集的库蚊和按蚊混合蚊标本分离的病毒株,对C6/36细胞致病变而对Ve-ro和BHK-21细胞不致病变。电镜观察显示病毒颗粒呈圆球形,直径约60nm(n=20),无包膜,单层衣壳,衣壳内有中央核。基因组核酸电泳显示基因组包括10条双链RNA(double stranded RNA,dsRNA)片段。病毒第10基因片段核酸序列测定显示该片段全长964bp(GenBankID:FJ150869),具有单一开放读码框,编码长度为275个氨基酸的蛋白,分子量约30.8kD。病毒第10基因片段核酸序列比对未发现相似的病毒核酸序列,氨基酸序列与胞质多形体病毒(Cytoplasmic polyhedrosis virus,CPV)第10基因片段编码的多形体蛋白部分区段匹配。病毒第10基因片段和已知各型CPV第10基因片段核酸序列共同进行系统进化分析显示该病毒位于独立的进化分枝,提示0507BS3病毒可能是一种新型CPV病毒。     

Histopathology of a nuclear polyhedrosis infection in Aedes epactius with observations in four additional mosquito species

Aedes epactius larvae were utilized to study the infection sequence of the nuclear polyhedrosis virus (NPV) from Aedes sollicitans. From 30 min to 6 hr postinoculation, polyhedra and many free virions were observed in the larval midgut lumen. Penetration of the midgut cells by virions was not observed. The first infected nuclei were observed 12 hr postinoculation. Nucleocapsids initially exhibited electron translucent cores which became electron dense before the nucleocapsids acquired an envelope. Envelope acquisition occurred through a process of de novo membrane morphogenesis. Occlusion of the singly embedded virions began by 18 hr postinoculation with the mature rough-surfaced polyhedra averaging approximately 1 by 2 μm. Unusually long nucleocapsids (approximately two or three times the length of other nucleocapsids) were only observed in late infection period nuclei. There was no evidence that long nucleocapsids represented an early developmental stage for nucleocapsids of standard length. Infection was restricted to midgut nuclei and gastric caecae cells. Infected early instar A. epactius larvae became moribund 36 to 40 hr postinoculation and infected midgut nuclei were observed to undergo lysis. The late stages of NPV infection were observed in larvae of A. annandalei, Wyeomyia smithii, Toxorhynchites brevipalpus, and Eretmapodites quinquevittatus. Virion development and occlusion in these species was basically identical to the sequence observed in A. epactius larvae.     

Regeneration of midgut epithelial cell in the silkworm, Bombyx mori, infected with viruses

In the larvae of the silkworm, Bombyx mori, the regeneration of midgut cells infected with a cytoplasmic polyhedrosis virus (CPV), a flacherie virus (FV), and a small DNA virus (SDV) was studied. Large numbers of newly developed cells appeared in the CPV-infected part of the midgut epithelium just before larval molt, and along with their development, the CPV-infected old columnar cells were discharged into the midgut lumen during the molt. On the other hand, in the uninfected portion of the midgut only a few cells developed, and no columnar cells were discharged. Similarly, the marked replacement of midgut epithelial cells during larval molt was also observed in larvae infected with CPV + FV. In the larvae infected with CPV + SDV, the columnar cells lost their regenerative ability, and because of the exfoliation of infected columnar cells, the midgut epithelium consisted mainly of uninfected goblet cells at a late stage of infection. The degree of epithelial regeneration varied with the silkworm strain and the dosage of the virus.     

Inapparent infection ofDiatraea grandiosella byHeliothis virescens cytoplasmic polyhedrosis virus

The terminal stage of infection with cytoplasmic polyhedrosis viruses (CPVs) is formation of crystal-like inclusion bodies (polyhedra) in host insects. The degree of susceptibility of larvae to CPV, based on light microscopy and presence of polyhedra, varies with the host species.Heliothis virescens (F.) andSpodoptera exigua (Hübner) are highly susceptible to CPV. In CPV treatedDiatraea grandiosella (Dyar), polyhedra were absent in all 400 + insects examined with light and electron microscopy. However,H. virescens larvae became infected when fed haemolymph ofD. grandiosella larvae or pupae (36±10 days post treatment) developed from CPV-treated larvae. No difference in pathology was observed betweenH. virescens larvae infected with CPV polyhedra and haemolymph fromD. grandiosella. This study provides evidence thatD. grandiosella can serve as a symptomless (no occlusion bodies) carrier of a CPV which is fully expressed inH. virescens species. The observation is interesting because it reveals a potentially important aspect of the epizootiology of this insect virus.     

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.     

Infectivity and mode of action of Baculoviruses

The genus Baculovirus contains three subgroups of viral types: (1) nuclear polyhedrosis viruses (NPVs), (2) granulosis viruses (GVs), and (3) nonoccluded baculoviruses. While little information is available for viruses from the third subgroup, several aspects of the infectivity and mode of action of NPVs and GVs have been studied. The most common route of entry of a virus into an insect host is per os, and both virus types enter midgut cells (primary site of infection) by membrane fusion. However, two distinct mechanisms of virus uncoating occur among the baculoviruses: NPVs uncoat within the nucleus, whereas GVs uncoat at the nuclear pore complex. Baculoviruses of subgroup 3 appear to uncoat by either mechanism. In addition to replicating within the nucleus, NPV inoculum virus may pass through the intestinal epithelium immediately after ingestion, thereby establishing a systemic infection of the hemocoel prior to virus replication in midgut cells. The GVs do not appear to pass through midgut cells as rapidly as NPVs and in general, the developmental cycle of GVs is longer than that of NPVs. NPVs have been grown in cell culture while GVs have not.     

A new cytoplasmic polyhedrosis virus from the salt-marsh mosquito, Aedes cantator (Diptera: Culicidae)

The ultrastructure, development, and histopathology of a new cytoplasmic polyhedrosis virus of Aedes cantator are described. Virus particles measure 70 nm in diameter, are icosahedral in shape, and consist of a central electron-dense core surrounded by a capsid with six projections. Occlusion bodies are irregular in size (0.5–3.0 μm) and shape and contain several virus particles. Virus particles are assembled within an interconnecting network of fine filaments and are occluded by the deposition of a proteinaceous crystal around groups of mature virus particles within a virogenic stroma. Infections are confined to cells of the cardia, gastric ceca, and posterior portion of the midgut, which hypertrophy and frequently lyse. Infected larvae die during the fourth larval instar or as pupae. The prevalence of infection in natural field populations is less than 1%.     

Characterization of a Nuclear Polyhedrosis Virus Isolated from Diseased Gonometa podocarpi (Lepidoptera:Lasiocampidae)

Gonometa podocarpi is an important pest of several species of pine in East Africa, and large numbers of trees in plantations in Kenya were partially or completely defoliated by the larval stage of this insect. After the infestation in the Mt. Elgon region, large numbers of dead and moribund larvae were found on the ground. Examination of extracts of these larvae demonstrated the presence of an occluded virus. Electron microscopy of purified sectioned polyhedra demonstrated the presence of virus particles containing from 1 to 12 nucleocapsids. Purification of virus particles from polyhedra was accomplished by using alkali solubilization and sucrose gradient centrifugation. Virus particles contained 15 proteins as determined by polyacrylamide gel electrophoresis. Detergent solubilization of the virus particles released polyhedra containing one major structural protein. Electron microscopy of purified virus particles and nucleocapsids demonstrated them to be similar in structure to previously recorded nuclear polyhedrosis viruses. The viral deoxyribonucleic acid was extracted and spread for electron microscopy and was determined to have a size of approximately 80 × 10⁶ daltons.