In vitro culture of Lambdina fiscellaria lugubrosa nucleopolyhedrovirus in heterologous cell lines

Infections of two heterologous insect cell lines derived from Malacosoma disstria (Md108) and Choristoneura fumiferana (Cf70) by the Lambdina fiscellaria lugubrosa nucleopolyhedrovirus (LafiNPV-W) were characterized. Cytopathic effects characteristic of LafiNPV-W infection, including rounding of cells, nuclear hypertrophy, and occlusion body (OB) production, were observed in both cell lines. Budded virus titers were slightly higher in Md108 cells than Cf70 cells (5.8?×?10⁷ versus 3.1?×?10⁷ TCID₅₀ units mL^?1). Viral replication kinetics and cytopathic effects induced by LafiNPV-W infection were very similar in both cell lines. Actin rearrangements and redistribution of heterochromatin and euchromatin were observed within 24 h post-inoculation (hpi), and large quantities of nucleocapsids and virions were observed by electron microscopy at 48 hpi in both cell lines. Cf70 cultures produced OBs with numerous embedded virions, while OBs in Md108 cultures contained few virions or were empty with nucleocapsids packed in the nucleoplasm between OBs. In bioassays against second instar L. fiscellaria lugubrosa, OBs derived from LafiNPV-W-infected Md108 cells induced significantly lower levels of mortality than OBs derived from LafiNPV-W-infected Cf70 cells or from infected L. fiscellaria fiscellaria larvae.     

Co-Occlusion and Persistence of a Baculovirus Mutant Lacking the Polyhedrin Gene

A co-occlusion process was evaluated as a commercially and ecologically acceptable strategy for the development of genetically improved baculovirus insecticides. Coinfection of Spodoptera frugiperda (IPLB-SF-21) tissue culture cells with Autographa californica nuclear polyhedrosis virus (AcMNPV) and an AcMNPV mutant (Ac-E10) lacking the polyhedrin gene resulted in occlusion of both virus types within polyhedra. The amount of occluded Ac-E10 virions in progeny polyhedra populations during serial passage in Trichoplusia ni larvae was evaluated. Maintenance of the mutant in progeny polyhedra required polyhedra inocula containing equal numbers of the two virus types at a high dose. A significant reduction in occluded mutant nucleocapsids occurs with inoculum levels below a 100% lethal dose. At inoculum levels below a 30% lethal dose, the majority of fourth-instar larvae were infected with only one type of virus. The commercial application and ecological advantages of the co-occlusion process are discussed.     

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.     

Cell Culture Derived AgMNPV Bioinsecticide: Biological Constraints and Bioprocess Issues

We have studied parameters for optimizing the Spodoptera frugiperda (Sf9) cell culture and viral infection for the production of Anticarsia gemmatalis multiple nucleopolyhedrosis virus (AgMNPV) polyhedra inclusion bodies (PIBs) in shaker-Schott or spinner bottles and bioreactors. We have assayed the k_La of the systems, initial cell seeding, cell culture volume, dissolved oxygen (DO), multiplicity of infection (MOI), nutrients consumption, and metabolites production. The medium surface oxygen transfer was shown to be higher in shaker bottles than in spinner ones, which was in direct correlation to the higher cell density obtained. Best quantitative performances of PIBs production were obtained with a SF900II medium volume/shaker-bottle volume ratio of 15% and MOI of 0.5 to 1 performed at a cell concentration at infection (CCI) of 1 to 2.5×10⁶ cells/ml in a medium containing enough glucose and glutamine. Upon infection, a decrease in the cell multiplication was observed to be dependent on the MOI used, and the μX at the exponential growth phase in infected and non-infected cultures were, respectively, of 0.2832 and 0.3914 (day⁻¹). The glucose consumption and lactate production were higher in the infected cultures (μGlucose and μLactate of, respectively, 0.0248 and 0.0089×10⁻⁸ g/cell×day in infected cultures and 0.0151 and 0.0046×10⁻⁸ g/cell×day in non infected ones). The glutamine consumption did not differ in both cultures (μGlutamine of 0.0034 and 0.0037×10⁻⁸ g/cell×day in, respectively, infected and non infected cultures). When a virus MOI of 0.1 to 1 was used for infection, a higher concentration of PIBs/ml was obtained. This was in direct correlation to a higher cell concentration present in these cultures, where a decrease in cell multiplication due to virus infection is minimized. When a MOI of 1 was used, a more effective decrease in cell multiplication was observed and a lower concentration of PIBs/ml was obtained, but with the best performance of PIBs/cell. Correlations between MOI and CCI indicate that a MOI 0.1 to 1.4 and a CCI of 10⁶ to 2×10⁶ cells/ml led to the best PIBs production performances. The virulence of PIBs produced in cultures infected at low or high MOI showed comparable DL₅₀. Culture and infection in scaling-up conditions, performed in a bioreactor, were shown to provide the cells with a better environment and be capable of potentially improving the shaker-Schott findings. For an accurate qualitative control of PIB virulence, hemolymph from AgMNPV infected Anticarsia gemmatalis was used as starting material for passages in Sf9 cells. These led to a loss of virulence among the PIBs with an increase in the DL₅₀. The loss of virulence was accompanied by a loss in budded virus titer, a decreased number of PIBs produced and an altered DNA restriction pattern, suggesting the generation of defective interference particles (DIPs). Transmission electron microscopy (TEM) studies revealed that after cell passages, PIBs lacking virions were progressively synthesized. The study described here point out the biological constraints and bioprocess issues for the preparation of AgMNPV PIBs for biological control.     

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.     

Strategies to increase the use of entomopathogens

Synchronized cultures of the TN-368 insect cell line were infected with a nuclear polyhedrosis virus from the alfalfa looper, Autographa californica, during different phases of the cell cycle. Cultures exposed to virus during the middle and late S phase have higher percentages of infected cells than cultures inoculated with virus in the G₂ phase. The amount of virus produced from each infected cell (polyhedra and plaque forming units) is not significantly different between cultures infected at all phases of the cell cycle.     

Trypanosoma acomys (Wenyon, 1909): Continuous Culturing with a Mouse Fibroblast Cell-Line (A9)

The continuous culturing of Trypanosoma acomys in the presence of a murine areolar-adipose cell line (A9) was possible for the 1st time. The trypanosomes were cultured at 37° C with A9 in DMEM supplemented with 20% heat inactivated fetal bovine serum, using an initial inoculum from primary cultures of lung or blood clots from infected spiny mice. The cultures were maintained for 115 days and underwent 15 passages before termination and cryopreservation. Using this culture system T. acomys subcultures were initiated from 3 different initial inocula (3 × 10⁴, 1.5 × 10⁵ and 7.4 × 10⁵ parasites/ml) and growth curves revealed that the lowest inoculum gave the best growth pattern. This inoculum yielded a population doubling time of less than 12 h for 4 days, a high peak density of 7 × 10⁶ parasites/ml and the most gradual decline compared to the other 2 inocula. Rosetting epimastigotes and nests of amastigotes were observed in close association with the feeder layer cells. Epimastigotes were the most predominant form in culture supernatants but other morphological forms observed included trypomastigotes and sphaeromastigotes.     

The effect of inoculum concentration on the development of the nuclear polyhedrosis virus of Autographa californica in TN-368 cells

A multiplicity of infection (m.o.i.) of 25 or 50 mean tissue culture-infective doses (TCID₅₀) of Autographa californica NPV per cell of a TN-368 cell line initially infected >90% of attached cells whereas an m.o.i. of 1 or 5 TCID₅₀/cell initially infected <50% of the cells. An immunoperoxidase technique first detected nucleocapsid antigens at 6–12 hr postinfection (PI) and polyhedral protein antigen 12–18 hr PI, which was followed 4–6 hr later by polyhedra formation. At a m.o.i. of 50, the extracellular virus titer (nonoccluded progeny virus) increased between 6 and 12 hr PI while at m.o.i. of 25, 5, and 1, the titer increased at 12–18 hr PI. Antisera to nucleocapsids and polyhedral protein were specific and also failed to react with viral envelope antigens.     

Quantitative and qualitative aspects in the production of a nuclear polyhedrosis virus in Spodoptera exigua larvae

Spodoptera exigua nuclear polyhedrosis virus was produced in late fourth instar S. exigua larvae, reared on semi-artificial diet. A maximum amount of virus, 1–2 × 10⁹ polyhedra/larva, was produced in individually-reared larvae after 7 days of incubation, with an inoculum of 7–5 × 10⁴ polyhedra/cm² diet surface. Virus yield was slightly reduced to 9 × 10⁸ polyhedra/larva when production was carried out in groups of 400 and 600 larvae per container. Biological activity of virus harvested from living larvae and from dead cadavers was similar. Microbial contaminants, predominantly bacteria, in the virus product numbered 1–6% of the number of polyhedra. Tests for the presence of vertebrate-pathogenic bacteria in the virus product were all negative.     

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.     

Cross-infection of a nuclear polyhedrosis virus of the almond moth to the indian meal moth

A nuclear polyhedrosis virus isolated from the almond moth, Cadra cautella, was cross-infective to the Indian meal moth, Plodia interpunctella: Concentrations of polyhedra of 8, 16, 32, and 64 × 10³/g of bran diet killed 12, 19, 24, and 45% of the exposed neonate P. interpunctella larvae respectively. Viral replication in P. interpunctella occurred in cell nuclei of the hypodermis, tracheal matrix, fat, Malpighian tubules, in tissue associated with muscles, and in columnar cells of the midgut. However, infection in the alternate host developed more slowly, and the tissue tropisms were less apparent. Also, polyhedra in P. interpunctella were often cuboidal, although they always developed normally in C. cautella. The average number of virions per bundle and the average size of the occluded virions were about the same in both hosts.     

A continuous process for the production of baculovirus using insect-cell cultures

Summary A continuous culture of insect cells (Spodoptera frugiperda) was used for continuous production of baculovirus (nuclear polyhedrosis virus fromAutographa californica). The system consisted of a cascade of two continuous stirred tank reactors (CSTRs). In CSTR I the insect cells were grown in suspension. This suspension was fed continuously to CSTR II where the virus infection occurred. For a period of about 25 days the average volumetric productivity was about 10⁷ polyhedra (virus particles occluded in protein capsules) and 10⁸ infectious NOVs (non-occluded virus particles) per cm³ effluent. This is equivalent to 25 polyhedra and 250 NOVs per infected cell, respectively. In one case, the percentage of infected cells was 65%, which is close to the theoretical value of 68%. After a run-time of 32 days a decrease of process productivity was observed, probably due to the so-called passage effect, a degeneration of the virus DNA.     

Differential requirements of two insect cell lines for growth in serum-free medium

Summary The development of a serum-free medium that supports the growth of cells from a Spodoptera frugiperda and a Lymantria dispar cell line is reported. A yeast hydrolysate provided the B-vitamin complex, and a combination of a meat hydrolysate and tryptose provided most of the free amino acids required for cell growth. Supplemental cystine and methionine were required to achieve maximum cell growth. The serum or serum replacements used in earlier formulations were replaced with commercial lipid preparations and increased levels of iron salts. Although the cell growth cycle had a somewhat extended lag phase and the population doubling time of the S. frugiperda cells was longer than on serum-containing medium, the saturation densities were much higher. Spodoptera cells grown in this medium replicated the Autographa californica nuclear polyhedrosis virus well, producing 8.71 × 10⁶ TCID₅₀ extracellular virus and 4.4×10⁸ polyhedra/ml culture. The specific activity of the polyhedra was somewhat less than that of polyhedra produced in insects.     

A baculovirus of the European skipper, Thymelicus lineola (Lepidoptera: Hesperiidae)

The nuclear polyhedrosis virus (NPV) of the European skipper, Thymelicus lineola, observed for the first time in Quebec in 1974, is highly pathogenic for its host. The infected larvae fill with pure polyhedra and die within 4 to 10 days. All tissues were infected except nerve cells and silk glands, but all nuclei of infected cells were filled with polyhedra. Biochemical analyses revealed that important metabolic disturbances occurred in infected larvae, such as serious modifications in the activity of certain enzymes. Polyhedra measured from 350 to 1330 nm in diameter and contained up to about 80 single-enveloped virions which measured to 270 × 58 nm. Abnormally short and abnormally long particles were also observed. Safety tests on mammals, fish, and beneficial insects revealed that this virus had no effect on these organisms, thus, it was recommended for the control of T. lineola outbreaks.     

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.     

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.     

Electron microscope examination of two plaque variants from a nuclear polyhedrosis virus of the alfalfa looper, Autographa californica

This investigation looks into the ultrastructural differences between plaque variants of the alfalfa looper nuclear polyhedrosis virus. The variants exhibit distinct differences in polyhedra morphology and enveloping of the nucleocapsids.Tissues from larvae infected per os or subcutaneously with virus from one type of plaque always contained virus representative of both plaques. This was not true of the in vitro cultured cells. In those cells, a culture infected with one plaque type always developed infections that were typical of that particular plaque.     

Isolation of vascular smooth muscle cell cultures with altered responsiveness to the antiproliferative effect of heparin

Smooth muscle cell (SMC) hyperplasia in the arterial wall is an important component of both atherogenesis and post-vascular surgical restenosis. One naturally-occurring group of molecules which can suppress SMC proliferation in animal models and in cell culture systems are the complex carbohydrates of the heparan sulfate class, including heparin. In this communication, we have used retrovirus vectors to introduce several oncogenes into SMC: SV40 Large T antigen (SVLT), polyoma virus Large T antigen (PyLT), v-myc, and adenovirus E1a. We analyzed a total of 11 cultures. A combination of Western blot analysis, immunoprecipitation, and indirect immunofluorescence confirmed the expression of the infected oncogenic protein in each culture we isolated. All four oncogenes permitted the maintenance of a normal SMC phenotype, as assessed by the general morphology of cells in the light microscope and the presence of SMC-specific α-actin in an immunofluorescence assay. Doubling times in infected cells ranged from 20 to 33 hr, and final cell densities in infected cultures ranged from 4 × 10⁴ to 5 × 10⁵ cells per cm². By comparison, the parent line had a doubling time of 30 hr and reached a final cell density of 1 × 10⁵ cells per cm². Despite the differences sometimes observed in these proliferation parameters, neither one was strongly correlated with heparin responsiveness. PyLT, v-myc, and E1a all produced SMC cultures or lines which retained sensitivity to the antiproliferative activity of heparin (ED₅₀ = 50 μg/ml). In contrast, SVLT expression yielded SMC lines which were highly resistant to heparin (ED₅₀ > 300 μg/ml). These results suggest that altered responsiveness to heparin is dependent upon which oncogenic protein is being expressed in the cells. The availability of cloned, immortal SMC lines with a wide range of heparin responsiveness should aid in the understanding of the cellular and molecular mechanism of action of this potentially important growth regulator and therapeutic agent. © 1996 Wiley-Liss, Inc.     

Factors Controlling the Production of Lysogenic Cultures of B. megatherium

(1) The proportion of infected B. megatherium cells which develop lysogenic colonies depends on the number and kind of infecting virus particles and on the culture medium in which the cells are growing. (2) Cells infected with 100 or more T virus particles (from megatherium 899) in yeast extract peptone disintegrate, produce very few virus particles, and less than one lysogenic colony per 10⁷ infected cells. Cells infected with one or a few particles produce 500 to 1000 virus particles each and about 30 lysogenic colonies per 10⁷ infected colonies. (3) T phage obtained from lysogenic magatherium KM cultures produces many more lysogenic cells than does the original megatherium 899 virus. (4) Cells infected with megatherium 899 T virus in peptone medium and then transferred to asparagine medium give rise to 10⁶ lysogenic colonies per 10⁷ infected cells and this transformation will occur even after the infected cells have been in peptone for 60 to 90 minutes and are beginning to produce virus particles. (5) Continued growth of KM strain with either C or T virus from megatherium 899 for several hundred generations in the steady state apparatus results in a lysogenic strain which produces several different types of virus.     

Utilizing the macroporous packed bed for insect cell/baculovirus expression

Due to their high porosity and biocompatibility, polyurethane foam (PUF) and cellulose foam were adopted for insect cell immobilization and baculovirus expression. Spodoptera frugiperda (SF-21) cells were grown within the macroporous matrix and then infected by Autographa californica nuclear polyhedrosis virus (AcNPV) which was encoded with human interleukin-5 (hIL-5) gene. An appropriate initial cell loading density and medium circulation velocity determined from the previous study were applied in this actual cell cultivation experiments to obtain a uniform initial and final axial cell distribution. The growth of insect cells and the expression of baculovirus were successful in the macroporous packed bed systems used. The final average cell density in cellulose foam achieved was 5.2×10⁷?cells/cm³ and 4.3×10⁷?cells/cm³ in PUF. Under the conditions of sufficient nutrition and oxygen supplement, the average productivity of hIL-5 in cellulose foam packed bed bioreactor reached 7.2×10⁷ unit/l-day. With 50% fresh medium replacement after viral infection, the average productivity of hIL-5 in PUF packed bed reached 8.4×10⁷ unit/l-day, about two fold than that without any fresh medium replacement at infection.