Propagation of Autographa californica nuclear polyhedrosis virus in cell culture: Methods for infecting cells

Autographa californica nuclear polyhedrosis virus (AcNPV) produced in Trichoplusia ni (TN-368) cells was used to infect other cell cultures. Methods were developed to recover and obtain high titers of virus from infected cells for subsequent use as inocula. To release cell-associated nucleocapsids, the cells were lysed by sonication and freeze-thawing. The infectivity of enveloped nucleocapsids was greatly reduced by freeze-thawing, while sonication was not as detrimental. The titer of plaque-forming units (pfu) was reduced about 12-fold when passed through 0.45-μm filters. The virus and cells were manipulated to determine the most efficient methods for inoculating cells while yielding the highest numbers of polyhedra. The viral inocula may be left on cells during virus replication, and cells may be centrifuged at 380 g prior to exposure to virus without affecting the yield of polyhedra. The production of polyhedra is affected by cell density, and, of the densities tested, 7.65 × 10⁵ cells/ml yielded the maximum number of polyhedra per cell (142). However, the highest number of polyhedra per milliliter of culture (2.2 × 10⁸) was obtained with 3.8 × 10⁶ cells/ml. The numbers of polyhedra per cell did not vary when cells were taken from fermentor cultures at 0–144 hr and were infected with virus.     

Dissolution of Autographa californica nuclear polyhedrosis virus polyhedra by the digestive fluid of Trichoplusia ni (Lepidoptera:Noctuidae) larvae

The dissolution of polyhedra of Autographa californica nuclear polyhedrosis virus by digestive fluid collected from 5th stage Trichoplusia ni larvae was studied in vitro. Observations were made at timed intervals using phase contrast microscopy, and scanning and transmission electron microscopy. Dissolution occurred rapidly and in a detectable sequence. Under phase contrast, most polyhedra lost their refringence by 0.5 min. The polyhedra became rounded in appearance with small protuberances on the surface and Brownian movement was observed within. After 1 min, the envelope of most polyhedra had ruptured, releasing the enclosed virions. The protuberances were also observed under the scanning electron microscope after digestion for 0.5 min. Many shell fragments devoid of internal contents were seen after more lengthy digestion. Internal structural changes were revealed by electron microscopy. After 1 min of exposure, polyhedra were observed in all stages of dissolution. By 3 min, only virions, scattered about in heterogeneous material, could be distinguished.     

Changes in growth and virulence of a nuclear polyhedrosis virus from Choristoneura fumiferana after passage in Trichoplusia ni and Galleria mellonella

An isolate of nuclear polyhedrosis virus from Choristoneura fumiferana was fed to neonate larvae of Trichopulsia ni and Galleria mellonella. It caused infection and mortality in both of these species. After passage in the alternate hosts, the isolate became increasingly virulent for these hosts. The passaged virus retained its infectivity for Choristoneura but diseased larvae did not wilt and at death they were found to contain only a few polyhedra indicating the virus had been changed.     

Infectivity of nuclear polyhedrosis virus extracted with digestive juices

Autographa californica NPV, which had been obtained by dissolving polyhedra in the digestive juice of Estigmene acrea larvae, was infectious to a Trichoplusia ni cell line (TN-368). Virions thus botained were infective, and as few as 0.0025–0.005 polyhedral equivalents could infect newly transferred tissue culture cells. Activity decreased after 8 min of digestion.     

An electron microscope study of effects of various fixatives and thin-section enzyme treatments on a nuclear polyhedrosis virus

A comparison of fixatives and embedding media used in thin sectioning of polyhedra and isolated virions of the Pseudoplusia includens nuclear polyhedrosis virus demonstrated that best results are obtained with glutaraldehyde-OsO₄ fixation and epoxy embedding. Fixation was obtained with formaldehyde, acrolein-formaldehyde, or OsO₄ alone but the crystalline array of the polyhedral protein was not preserved. Glycol methacrylate embedding medium resulted in images of poor quality. Treatment of thin sections of polyhedra and virions with enzymes showed that the polyhedral membrane is resistant to digestion with proteases but the interiors of polyhedra were removed with pepsin, pronase, subtilisin, and a mixture of deoxyribonuclease and trypsin. Enzyme treatment of thin sections of virions resulted in removal of the nucleocapsid by all proteases tested except trypsin. A mixture of deoxyribonuclease and trypsin digested the nucleocapsid. The envelope of the virion resisted enzyme treatment.     

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.     

Functional differences between occluded and nonoccluded viruses of a nuclear polyhedrosis of the silkworm, Bombyx mori.

Comparative infectivity and virus neutralization studies on occluded and nonoccluded viruses of Bombyx mori nuclear polyhedrosis revealed that the infectious unit causing peroral infection differed from that causing hemocoelic infection. There were functional differences between the occluded (mainly virons with envelopes) and the nonoccluded virus (mainly virions without envelopes) preparations. The peroral infection was largely due to the virion with an envelope (peroral infectious unit), and the hemocoelic infection was due largely to the virion without an envelope (hemocoelic infectious unit). The apparent change of the virions with envelope to those without envelopes was detected as a slight increase in hemocoelic infectivity when the occluded virus was diluted and incubated at 4°C for more than 6 days.     

Factors affecting the yield of virus in a cloned cell line of Trichoplusia ni infected with a nuclear polyhedrosis virus

The TN-368 tissue culture line of the cabbage looper, Trichoplusia ni, has been cloned. The doubling times of three clones at 27°C were 27.6 ± 3.4 hr, 21.9 ± 1.7 hr, and 27.4 ± 5.9 hr and that of the uncloned culture was 15.8 ± 1.5 hr. Growth of cells in all cultures was arrested after infection with a nuclear polyhedrosis virus of T. ni. There was little difference in the yield of polyhedra from cultures of uncloned or cloned cells infected at a multiplicity of infection (m.o.i) = 4. Yields of polyhedra were about the same when a m.o.i. was in the range of 0.01–4.0, but the yield tripled in the range m.o.i. = 20–30. At higher multiplicities, up to m.o.i. = 500 the yield of polyhedra progressively fell. It is concluded that the observed variation in numbers of polyhedra borne by individual cells in culture is not due to genetic variability among cells, nor can it be accounted for as a consequence of differing m.o.i. by virus. It is postulated that variation in polyhedra yield among cells in culture may be due to such factors as (1) strain differences in the virus, (2) the stage in the cell cycle at which a particular cell is present when infected.     

Characterization of the polyhedral envelope of the nuclear polyhedrosis virus of Heliothis virescens

The polyhedral envelope of the nuclear polyhedrosis virus of Heliothis virescens was separated from the matrix proteins and nucleocapsids by alkaline dissolution and differential centrifugation. Spectrophotometric analyses and histochemical staining demonstrated that the envelope was composed of carbohydrates. The envelope contained 60.9% (by weight) hexose and 29.1% pentose. Further examination revealed significant amounts of uronic acids (8.4%) and hexosamines (1.6%).     

A plaque assay for titration of alfalfa looper nuclear polyhedrosis virus in a cabbage looper (TN-368) cell line

This is the first report of plaque formation by a pathogenic insect virus. Trichoplusia ni (TN-368) cells overlaid with medium containing 0.6% methyl cellulose continued to multiply, developed into monolayers, and produced plaques after infection with alfalfa looper nuclear polyhedrosis virus. Viral polyhedral inclusion bodies were first observed 24 hr after exposure of cells to virus, and plaques continued to increase in size for 72 hr. Two different types of plaques were observed: one in which all cells had many polyhedra in their nuclei, and another in which few cells had inclusion bodies. When virus from either plaque was injected into T. ni larvae, they died of typical nuclear polyhedrosis virus disease. The assay was reproducible, and plaque numbers were related to virus concentration.     

Midgut cysteine protease-inhibiting activity in Trichoplusia ni protects the peritrophic membrane from degradation by plant cysteine proteases

The action of plant cysteine proteases on the midgut peritrophic membrane (PM) of a polyphagous herbivorous lepidopteran, Trichoplusia ni, was studied. Proteins in PMs isolated from T. ni larvae were confirmed to be highly resistant to the serine proteinases trypsin and chymotrypsin, but were susceptible to degradation by plant cysteine proteases, which is consistent with the known molecular and biochemical characteristics of the T. ni PM proteins. However, the PM proteins were not degraded by plant cysteine proteases in larvae or in the presence of larval midgut fluid in vitro. With further biochemical analysis, cysteine protease-inhibiting activity was identified in the midgut fluid of T. ni larvae. The cysteine protease-inhibiting activity was heat resistant and active in the tested pH range from 6.0 to 10.0, but could be suppressed by thiol reducing reagents or reduced by treatment with catalase. In addition to T. ni, cysteine protease-inhibiting activity was also identified from two other polyphagous Lepidoptera species, Helicoverpa zea and Heliothis virescens. In conclusion, results from this study uncovered that herbivorous insects may counteract the attack of plant cysteine proteases on the PM by inhibiting the potentially insecticidal cysteine proteases from plants in the digestive tract. However, the biochemical identity of the cysteine protease-inhibiting activity in midgut fluid has yet to be identified.     

Pathogenicity of a nuclear polyhedrosis virus of the almond moth, Cadra cautella

Tests were conducted with neonate Cadra cautella larvae to determine the pathogenicity of a nuclear polyhedrosis virus. A bioassay on an agar base diet showed that concentrations of 0.25, 0.50, 2.00, and 4.00 polyhedra/mm² killed 27, 55, 87, and 92% of the test larvae, respectively. A study of the time of death showed that most larvae died on the 9th or 10th day after exposure to 4 polyhedra/mm² at 27°C. When larvae were exposed to 8, 16, 32, and 64 × 10³ polyhedra/g of bran diet, recorded mortalities were 18, 22, 48, and 80%, respectively. All the samples of virus in bran diet which were incubated at various temperatures for 7, 14, and 28 days remained stable at all test conditions except the sample incubated at 42°C for 14 days, and those held at 37° and 42° for 28 days. Larvae of C. cautella, Plodia interpunctella, Ephestia elutella, and Paramyelois transitella placed on a diet with 40 × 10³ polyhedra/g had mortalities of 75, 59, 16, and 4%, respectively. Light and electron microscopical examination of P. interpunctella cadavers showed that they were infected with a multiply occluded nuclear polyhedrosis virus.     

The regulation of development during diapause in Ephestia elutella (Hübner) by temperature and photoperiod

Diapausing larvae of Ephestia elutella reared at 20°C in short photoperiods (LD 11:13), and then maintained 12 weeks or longer at 5–15°C before transfer to 20 or 25°C, pupated sooner than unchilled controls. At 25°C, all samples kept in long photoperiods (LD 15:9) survived better and pupated faster than similarly treated samples held in short photoperiods (LD 9:15). Samples kept at 20°C after chilling pupated much slower than those at 25°C, and, except after exposure at 5°C, pupated at similar rates at LD 11:13 or 15:9, although mortality was higher at the shorter photoperiod. After exposure at 5°C, larvae required increased day-length as well as increased temperature to hasten pupation whereas after exposure at 10°C most responded to increased temperature only.For samples maintained in slightly heated or unheated outbuildings, the summer emergence was poorly synchronized and males on average emerged ahead of females. Samples moved from the unheated outbuilding to 25°C and long days in the laboratory in early spring, however, pupated quickly and males and females emerged together. A late phase of diapause development thus exists requiring both high temperature and long photoperiods to ensure a prompt resumption of morphogenesis. Spring temperatures in the United Kingdom are seldom high enough to synchronize the completion of diapause.     

SDS-PAGE comparative studies on the polyhedral and viral polypeptides of the nuclear polyhedrosis viruses of Mamestra brassicae, Autographa californica, and Lymantria dispar

After solubilization of polyhedra of Autographa californica, Lymantria dispar, and Mamestra brassicae nuclear polyhedrosis viruses, PAGE showed at least eight distinct polyhedral polypeptide bands. Whereas the molecular weights of the major polypeptide were similar for the three NPVs (28.0–30.0 kdalton), characteristic differences between the species were found for the minor polypeptides having molecular weights in the range from 12.4 to 62.0 kdalton. It is assumed that these polypeptides are not generated by polyhedral alkaline protease since they are detected after protease inactivation. The data demonstrate that different baculoviruses can be distinguished from each other by SDS-PAGE of their polyhedral polypeptides.     

Serial passage of Heliothis zea singly embedded nuclear polyhedrosis virus in a homologous cell line

This paper describes the replication and serial passage of Heliothis zea nuclear polyhedrosis virus (NPV) in a H. zea cell line. It was demonstrated that long-term serial passages of the H. zea NPV in homologous host cell culture decreased both the total number of polyhedral inclusion bodies (PIBs) produced and the infectivity of the supernatant as measured by TCID₅₀. The growth curve indicated that infectious material was released from cells 24 hr postinfection (p.i.) and approached a maximal titer 3 days p.i. The kinetics of H. zea NPV decay at 4°, 27°, and 37°C were determined. Infectivity was not detected after 3 weeks at 37°C, but approximately 10^3.5 TCID₅₀/ml activity was still present after 3 and 8 weeks storage at 27° and 4°C, respectively. Electron microscopy confirmed the presence of single embedded virions in the inoculated cells.     

Observations on the morphology and infectivity for cattle of Babesia bovis parasites in unfed Boophilus microplus larvae after incubation at various temperatures

Dalgliesh R. J. and Stewart N. P. 1979. Observations on the morphology and infectivity for cattle of Babesia bovis parasites in unfed Boophilus microplus larvae after incubation at various temperatures. International Journal for Parasitology9: 115–120. The temperature of incubation of unfed Boophilus microplus larvae infected with Babesia bovis influenced the morphology and infectivity of the Babesia within the tick. Incubation at 37°C for 1–3 days stimulated the development of parasites morphologically similar to those usually observed in fed larvae harvested from cattle; similar forms appeared more slowly in larvae incubated at 31°C or 25°C. Extracts prepared from larvae after incubation at 37°C for 3–5 days or 30°C for 8 days were consistently infective for cattle. Prior storage of larvae at 14°C for up to 28 days enhanced the development of infectivity at 37°C; infectivity could still be produced after 65 days storage at 14°C but not after 76 days. Larvae released on a host transmitted B. bovis sooner if they had been incubated at 37°C for 4 days. It was concluded that the development of B. bovis to an infective stage in B. microplus is temperature dependent and does not require the stimulus of feeding by the host.     

Identification of a new nucleopolyhedrovirus from naturally-infected Condylorrhiza vestigialis (Guenée) (Lepidoptera: Crambidae) larvae on poplar plantations in South Brazil

A baculovirus was isolated from larvae of Condylorrhiza vestigialis (Guenée) (Lepidoptera: Crambidae), a pest of a forest species known as Poplar (family Salicaceae, genus: Populus) with high economic value. Electron microscopy analysis of the occlusion body obtained from diseased larvae showed polyhedra containing multiple nucleocapsids per envelope. This baculovirus was thus named Condylorrhiza vestigialis multiple nucleopolyhedrovirus (CoveMNPV) and characterized by its DNA restriction endonuclease pattern, polyhedral protein, viral protein synthesis, and infectivity in insect cell lines. Restriction endonuclease profiles of viral DNA digested with five restriction enzymes were obtained and the CoveMNPV genome size was estimated to be 81 ± 2.5 kbp. The isolation of the polyhedra (OBs) was done from the crude extract of infected larvae by ultracentrifugation through sucrose gradients. These viral particles were analyzed by denaturing polyacrylamide gel electrophoresis (SDS-PAGE), which showed a strong band with approximately 33 kDa, corresponding to the main protein of the occlusion bodies (polyhedrin). Also, a similar band was observed for CoveMNPV infected Spodoptera frugiperda cells (SF-21 AE) pulse-labeled with [³⁵S] methionine and fractionated by SDS-PAGE. Of the four insect cell lines tested for susceptibility to CoveMNPV infection, the SF-21 AE was the most susceptible with occlusion bodies produced in most of the inoculated cells. This is the first record of an NPV from C. vestigialis.     

Measurement of Surface Charge of Baculovirus Polyhedra

The isoelectric points of three baculoviruses, Trichoplusia ni nuclear polyhedrosis virus (NPV), T. ni granulosis virus, and Spodoptera littoralis NPV were identified by cell electrophoresis. At neutral pH polyhedra were negatively charged. T. ni NPV polyhedra were reacted with a number of reagents which could potentially attach to or degrade their surface structure. This gave information on the components that contribute to the charge profile of T. ni NPV. This is discussed in relation to the use of polyhedra as biological control agents against insect pests.     

Pathogenesis and midgut histopathology of Bacillus thuringiensis in Simulium vittatum (Diptera: Simuliidae)

The pathogenesis and midgut histopathology which resulted when larvae of the blackfly, Simulium vittatum, were exposed to Bacillus thuringiensis at various temperatures and periods of exposure were investigated. The onset of mortality was studied at 10°, 15°, 19°, and 24°C. For each 4–5°C increase in temperature above 15°C, the onset of mortality was shortened by 24 hr. Exposures as brief as 15 min to 10 ppm of a whole spore preparation resulted in an average mortality of 29% in late-instar larvae. Mortality increased sharply for exposures up to 3 hr, approaching a maximum of 80%.The gross signs of disease included cessation of feeding and tetany with brachytosis. The tissue most affected was the midgut epithelium in the regions of the gastric caeca and posterior stomach. The formation of cytoplasmic vacuoles followed by cell lysis and/or sloughing were very apparent in moribund larvae. Death resulted without bacteremia.     

An RNA virus in Autographa californica nuclear polyhedrosis virus preparations: Incidence and influence on baculovirus activity

A small RNA virus infectious to Trichoplusia ni larvae (TRV) was observed as a contaminant of several Autographa californica nuclear polyhedrosis virus preparations (AcMNPV). The extent of contamination in various AcMNPV preparations was studied by means of serial enrichment passages through T. ni larvae and enzyme-linked immunosorbent assay (ELISA). TRV could not be detected by ELISA in the original preparation of AcMNPV polyhedra prepared in 1968 even after five enrichment passages. Antibody inactivation offers a possible prophylactic method against TRV but temperature inactivation (55°C) does not. Although TRV reduced larval weight, it had little or no effect on bioassays of AcMNPV to T. ni and Heliothis virescens.