On-line monitoring of the progress of infection in Sf-9 insect cell cultures using relative permittivity measurements

The use of on-line relative permittivity (epsilon') measurements for monitoring cultures of Sf-9 cells was evaluated in a batch culture and a batch infected with a baculovirus expressing beta-galactosidase. It was found that viable cell density and volume essentially accounted for all the variation in epsilon' in both non-infected and synchronously infected cultures, indicating that the epsilon' of a cell suspension was sensitive only to changes in the viable cell population. Additionally the parameter provided clearly defined signposts of the progress of the infection.     

On-line monitoring of respiration in recombinant-baculovirus infected and uninfected insect cell bioreactor cultures

Respiration rates in Spodoptera frugiperda (Sf-9) cell bioreactor cultures were successfully measured on-line using two methods: The O(2) uptake rate (OUR) was determined using gas phase pO(2) values imposed by a dissolved oxygen controller and the CO(2) evolution rate (CER) was measured using an infrared detector. The measurement methods were accurate, reliable, and relatively inexpensive. The CER was routinely determined in bioreactor cultures used for the production of several recombinant proteins. Simple linear relationships between viable cell densities and both OUR and CER in exponentially growing cultures were used to predict viable cell density. Respiration measurements were also used to follow the progress of baculoviral infections in Sf-9 cultures. Infection led to increases in volumetric and per-cell respiration rates. The relationships between respiration and several other culture parameters, including viable cell density, cell protein, cell volume, glucose consumption, lactate production, viral titer, and recombinant beta-galactosidase accumulation, were examined. The extent of the increase in CER following infection and the time postinfection at which maximum CER was attained were negatively correlated with the multiplicity of infection (MOI) at multiplicities below the level required to infect all the cells in a culture. Delays in the respiration peak related to the MOI employed were correlated with delays in the peak in recombinant protein accumulation. DO levels in the range 5-100% did not exert any major effects on viable cell densities, CER, or product titer in cultures infected with a baculovirus expressing recombinant beta-galactosidase. (c) 1996 John Wiley & Sons, Inc.     

On-line monitoring of infected Sf-9 insect cell cultures by scanning permittivity measurements and comparison with off-line biovolume measurements

Two infected Sf-9 cell cultures were monitored on-line by multi-frequency permittivity measurements using the Fogale BIOMASS SYSTEM^® and by applying different off-line methods (CASY^®1, Vi-CELL?, packed cell volume) to measure the biovolume and the mean diameter of the cell population. During the growth phase and the early infection phase the measured permittivity at the working frequency correlated well with the different off-line methods for the biovolume. We found a value of 0.67 pF cm^?1 permittivity per unit of total biovolume (CASY) (μL mL^?1). After the maximum value in the permittivity was reached, i.e. when the viability of the cultures decreased significantly, we observed different time courses for the biovolume depending on the applied method. The differences were compared and could be explained by the underlying measurement principles. Furthermore, the characteristic frequency (f_C) was calculated from the on-line scanning permittivity measurements. The f_C may provide an indication of changes in cell diameter and membrane properties especially after infection and could also be an indicator for the onset of the virus production phase. The changes in f_C were qualitatively explained by the underlying equation that is correlating f_C and the properties of the cell population (cell diameter, intracellular conductivity and capacitance per membrane area).     

Optimization of the production of virus-like particles in insect cells

In this work the maximal operational hydrodynamic conditions (agitation and aeration rate) that cause no adverse effect in Sf-9 cells growth in SF900II serum-free medium were determined. Shear stresses higher than 1 N m-2 and aeration rates higher than 0.04 vvm affect cell growth and when these conditions increase to 1.5 N m-2 and 0.11 vvm, cell growth is completely inhibited with significant cell morphology changes and a strong decrease in viability. Although the pO2 did not show a significant effect upon cell growth in the range from 10 to 50%, cell infection and specific productivity were dramatically affected. The production was optimal at a pO2 of 25% with decreases higher than 50% being observed when the pO2 decreased to 10 or increased to 50%. The maximum product quality, i.e., the percentage of product in the form of high molecular weight particles, is not coincident with maximum product titer. Although the highest Pr55gag particle titer was obtained at 96 hours post infection (hpi) and at pO2 of 25%, the best product quality (defined by gel filtration chromatography and Western immunoblot) was obtained at 48 hpi, independently of the pO2 used. The effect of overcritical conditions upon productivity was also studied. As obtained for cell growth, cell infection is affected by shear stresses above 1 N m-2 and by aeration rates higher than 0.04 vvm, with decreases in Pr55gag particle titer higher than 70%, even when the overcritical values are still far from the limit at which cell death occurs. The results obtained and the optimization strategy used allowed the maximization of the oxygen supply without damaging the cells, with important consequences on the scale-up of a production process involving this insect cell/baculovirus expression system.     

Abortive infection of the baculovirus Autographa californica nuclear polyhedrosis virus in Sf-9 cells after mutation of the putative DNA helicase gene.

Homologous recombination between the Autographa californica nuclear polyhedrosis virus (AcNPV) genome and a 0.6-kbp-long DNA fragment derived from the putative DNA helicase gene of Bombyx mori nuclear polyhedrosis virus generates eh2-AcNPV, an expanded-host-range AcNPV mutant (S. Maeda, S.G. Kamita, and A. Kondo, J. Virol. 67:6234-6238, 1993). After inoculation at a high multiplicity of infection (MOI), eh2-AcNPV replicates efficiently in both the Sf-9 (AcNPV-permissive) and BmN (non-AcNPV-permissive) cell lines. In this study, we found that after the inoculation of Sf-9 cells at a low MOI (i.e., 1 and 0.1 PFU per cell), the release of eh2-AcNPV virions was dramatically reduced (approximately 900- and 10,000-fold, respectively, at 72 h postinoculation) compared with that of wild-type AcNPV. In addition, the titer of eh2-AcNPV determined by plaque assay on Sf-9 cells was approximately 200-fold lower than that determined by plaque assay on BmN cells. Analyses of gene expression and viral DNA replication after low-MOI eh2-AcNPV inoculation of Sf-9 cells indicated that viral early genes were expressed normally. However, DNA replication and late-gene expression were significantly reduced. These findings suggested that abortive infection occurred at the stage of viral DNA replication in nearly all low-MOI eh2-AcNPV-infected Sf-9 cells. In the larvae of Spodoptera frugiperda, the organism from which Sf-9 cells are derived, the infectivity of eh2-AcNPV was lower than that of AcNPV; however, abortive infection was not found.     

Exogenous ACE2 expression allows refractory cell lines to support severe acute respiratory syndrome coronavirus replication

Of 30 cell lines and primary cells examined, productive severe acute respiratory syndrome coronavirus (Urbani strain) (SARS-CoV) infection after low-multiplicity inoculation was detected in only six: three African green monkey kidney epithelial cell lines (Vero, Vero E6, and MA104), a human colon epithelial line (CaCo-2), a porcine kidney epithelial line [PK(15)], and mink lung epithelial cells (Mv 1 Lu). SARS-CoV produced a lytic infection in Vero, Vero E6, and MA104 cells, but there was no visible cytopathic effect in Caco-2, Mv 1 Lu, or PK(15) cells. Multistep growth kinetics were identical in Vero E6 and MA104 cells, with maximum titer reached 24 h postinoculation (hpi). Virus titer was maximal 96 hpi in CaCo-2 cells, and virus was continually produced from infected CaCo-2 cells for at least 6 weeks after infection. CaCo-2 was the only human cell type of 13 tested that supported efficient SARS-CoV replication. Expression of the SARS-CoV receptor, angiotensin-converting enzyme 2 (ACE2), resulted in SARS-CoV replication in all refractory cell lines examined. Titers achieved were variable and dependent upon the method of ACE2 expression.     

Comparison of Trichoplusia ni BTI-Tn-5B1-4 (high five) and Spodoptera frugiperda Sf-9 insect cell line metabolism in suspension cultures

Nutrient utilization and byproduct accumulation were monitored in Spodoptera frugiperda Sf-9 and Trichoplusia ni BTI-Tn-5B1-4 (High Fivetrade mark) cell lines during growth and following viral infection in suspension cultures in order to develop a better understanding of cell metabolism and to acquire information relevant to large scale fed-batch bioreactors. The utilization of glucose, dissolved oxygen, and amino acids were monitored in Sf-9 cell cultures grown in Sf-900 II serum-free medium (SFM) and in High Fivetrade mark cell cultures grown in both Sf-900 II and Express Five SFM. Using the optimal medium for each cell line, i.e., Sf-900 II SFM for Sf-9 cells and Express Five SFM for High Fivetrade mark cells, the cell growth rate, maximum cell density, specific glucose and glutamine utilization rates, and specific alanine production rate were comparable during cell growth. In addition, the expression level of recombinant human tissue plasminogen activator was comparable in the two cell lines on a per cell basis. It was found, however, that lactate and ammonia accumulated in High Fivetrade mark cell cultures, but not in Sf-9 cell cultures. In addition, High Fivetrade mark cells utilized asparagine more rapidly than glutamine, whereas Sf-9 cells consumed only minimal asparagine, and the oxygen utilization rate was significantly higher in High Fivetrade mark cell cultures. It was also found that the medium had a significant effect on High Fivetrade mark cell metabolism, e.g., the specific glucose utilization rate and the specific lactate and alanine production rates were significantly higher in Sf-900 II SFM than in Express Five SFM. In addition, the maximum cell density and specific asparagine utilization rate were significantly higher in Express Five SFM. (c) 1997 John Wiley & Sons, Inc. Biotechnol Bioeng 55:909-920, 1997.     

Egress of light particles among filopodia on the surface of Varicella-Zoster virus-infected cells

Varicella-zoster virus (VZV) is renowned for its very low titer when grown in cultured cells. There remains no single explanation for the low infectivity. In this study, viral particles on the surfaces of infected cells were examined by several imaging technologies. Few surface particles were detected at 48 h postinfection (hpi), but numerous particles were observed at 72 and 96 hpi. At 72 hpi, 75% of the particles resembled light (L) particles, i.e., envelopes without capsids. By 96 hpi, 85% of all particles resembled L particles. Subsequently, the envelopes of complete virions and L particles were investigated to determine their glycoprotein constituents. Glycoproteins gE, gI, and gB were detected in the envelopes of both types of particles in similar numbers; i.e., there appeared to be no difference in the glycoprotein content of the L particles. The viral particles emerged onto the cell surface amid actin-based filopodia, which were present in abundance within viral highways. Viral particles were easily detected at the base of and along the exterior surfaces of the filopodia. VZV particles were not detected within filopodia. In short, these results demonstrate that VZV infection of cultured cells produces a larger proportion of aberrant coreless particles than has been seen with any other previously examined alphaherpesvirus. Further, these results suggested a major disassociation between capsid formation and envelopment as an explanation for the invariably low VZV titer in cultured cells.     

Effect of time of harvest of budded virus on the selection of baculovirus FP mutants in cell culture

Rapid formation and selection of FP (few polyhedra) mutants occurs during serial passaging of Helicoverpa armigera nucleopolyhedrovirus (HaSNPV) in insect cell culture. The production of HaSNPV for use as biopesticides requires the passaging of the virus over a number of passages to produce enough virus inoculum for large-scale fermentation. During serial passaging in cell culture, FP mutants were rapidly selected, resulting in declined productivity and reduced potency of virus. Budded virus (BV) is usually harvested between 72 and 96 h postinfection (hpi) in order to obtain a high titer virus stock. In this study, the effect of time of harvest (TOH) for BV on the selection rate of HaSNPV FP mutants during serial passaging was investigated. BV were harvested at different times postinfection, and each series was serially passaged for six passages. The productivity and percentage of FP mutants at each passage were determined. It was found that the selection of FP mutants can be reduced by employing an earlier TOH for BV. Serial passaging with BV harvested at 48 hpi showed a slower accumulation of FP mutants compared to that of BV harvested after 48 hpi. Higher cell specific yields were also maintained when BV were harvested at 48 hpi. When BV that were formed between 48 and 96 hpi were harvested and serially passaged, FP mutants quickly dominated the virus population. This suggests that the BV formed and released between 48 and 96 hpi are most likely from FP mutant infected cells.     

Assessment of virus production and chloramphenicol acetyl transferase expression by insect cells in serum-free and serum-supplemented media using a temperature-sensitive baculovirus

Spodoptera frugiperda insect cells were grown in Sf-900 serum-free medium and two kinds of serum-supplemented media (IPL -41 and Grace's). The specific growth rates of uninfected cells were found to be 0.024, 0.35, and 0.034 h(-1) respectively, at 33 degrees C. The IPL -41 medium supported to highest maximum cell density (10.6 x 10(6) cells/mL) compared to 3.5 x 10(6) and 8.7 x 10(6) cells/mL with the Grace's and serum-free media, respectively. In temperature shifdown experiments with a temperature-sensitive baculo-virus (acts10YM1CAT), virus titer and chloramphenicol acetyl transferase (CAT) expression were highest in the IPL -41 (5.1 x 10(7) PFU/mL and 20000 U/mL). Use of Grace's medium gave higher virus titers than the serum-free medium (4.4 x 10(6) vs 4.1 x 10(5) PFU/mL) as well as higher CAT titers (7050 vs 1980 U/mL). Interestingly, in the three media used, the highest virus and CAT titers were obtained at MOI (multiplicity of infection) of 0.02 At MOI of 2.0 virtually no increase in virus of CAT titer was observed. This result is contrary to those obtained at constant-temperature (27 degrees C) infection and cell culture, in which higher virus titers and recombinant protein expression and obtained at higher MOI.     

Isolation and replication of rabies virus in C6 rat glioma cells (clone CCL-107).

The susceptibility of the C6 rat glioma cell line (ATCC; CCL-107) to rabies virus was characterized. The kinetics of infection performed with a fixed and a wild strain (from an infected cow) of rabies virus was monitored by direct immunofluorescence. Fluorescent cytoplasmic bodies were readily observed by UV microscopy from 24 hours post-infection (hpi) onwards. The ability of C6 to produce rabies infective virion particles was confirmed by determining the viral titres present in the supernatants of infected cultures, by both BHK-21 cell infection and mice inoculation. C6 cells produced similar viral titres to those produced by BHK-21 for both strains used. In addition, the yield of rabies glycoprotein was assessed by ELISA. In general, BHK-21 and C6 cells infected either by PV or with the wild rabies strain produced similar amounts of rabies glycoprotein. At 96 hpi, however, when the glycoprotein production peaked, BHK-21 infected with the wild strain produced significantly higher amounts of glycoprotein than C6. Subsequently, the optimal conditions for isolation of wild rabies virus strains from C6 cells were established and these proved to be as sensitive as NA cells in detecting 10 wild rabies samples. Due to the high sensitivity exhibited, C6 rat glioma cells present a new and useful system for rabies virus investigation.     

The replication cycle of tanapox virus in owl monkey kidney cells.

The growth kinetics of tanapox virus in owl monkey kidney cells was elucidated by single-step growth curves at multiplicities of 10, 1.0, and 0.1 plaque forming units (pfu) per cell at 37 and 33 degrees C. Virus replicated equally well at both temperatures and produced a cytopathic effect that was characterized by densely packed rounded cells with retrogressed monolayer and granular vacuolated cytoplasm. Single-step growth curves revealed that the eclipse period varied from 24 h postinfection (hpi) at a multiplicity of infection of 10 pfu/cell to 48 hpi at 0.1 pfu/cell. The length of the latent period also varied from 36 hpi at 10 pfu/cell to 48 hpi at 0.1 pfu/cell. The intracellular virus, extracellular virus, and total virus titers reached their maximums relatively early at 10 pfu/cell as compared with 0.1 pfu/cell. About 78% of the mature progeny virion is retained intracellularly at 10 pfu/cell at 96 hpi. We conclude that tanapox virus replication is similar to other poxviruses, but the replication cycle is longer when compared with vaccinia virus.     

A novel method for in vitro radiolabeling and testing enveloped viruses by phosphatidylethanolamine N-methyltransferase and host cell-specific binding

The present study developed a novel virus labeling and testing method, referred to as an envelope-labeled virus assay (ELVA), in which virus envelope is labeled in vitro by the action of phosphatidylethanolamine N-methyltransferase (PEMT) and tested through a host cell-specific binding. A recombinant strain (vGFPuv) of Autographa californica multiple nuclear polyhedrosis virus (AcMNPV) and Spodoptera frugiperda (Sf-9) insect cells were used as a model of viruses and host cells, respectively. The labeling mixture, which contained PEMT, [methyl-3H]S-adenosylmethionine (SAM), and a trace amount of detergent Triton X-100, brought about little change in virus titer of vGFPuv on a 1-h incubation, but was so toxic to Sf-9 cells as to immediately cause cell death. After being incubated with vGFPuv, therefore, the labeling mixture was neutralized by adsorptive removal of PEMT and Triton X-100 before Sf-9 cells were contacted with the mixture to extract the virus. The Sf-9 cells were then washed with a phosphate buffered saline (PBS), and lipid extracts with a 1% SDS solution were subjected to a liquid scintillation analysis for the determination of labeling efficiency. As a result, a significant amount of radioactivity was determined in the extracts, demonstrating the validity of ELVA for labeling and testing enveloped viruses. The conditions for the PEMT reaction and cell-virus binding were examined, and the lower detection limit of AcMNPV by ELVA was found to lie in the order of 10(3) plaque forming unit (pfu) per milliliter. Since the labeling reaction and detection of virus are based on neither immunological nor genetic characteristics of virus, ELVA is also expected to be a convenient and comprehensive test of other enveloped viruses.     

Application of a serum-free medium for the growth of Vero cells and the production of reovirus

Two strains of reovirus (serotype 1 Lang/TIL and serotype 3 Dearing/T3D) were propagated in Vero cells grown in stationary or agitated cultures in a serum-free medium, M-VSFM. Solid microcarriers (Cytodex-1) were used to support cell growth in agitated cultures with a normal doubling time of 25 h. Cell yields of 1 x 10(6) cells/mL were obtained from an inoculum of 2 x 10(5) cells/mL in 4 days in microcarrier cultures. The growth profile and cell yield was not significantly different from serum-supplemented cultures. The virus titer increased by 3-4 orders of magnitude over a culture period of 150 h. The maximum virus titer in stationary cultures reached >1 x 10(9) pfu/mL for both strains of reovirus in M-VSFM. M-VSFM also supported high viral yields in microcarrier cultures. Both the specific productivity and final viral yield was higher in M-VSFM than serum-supplemented cultures. The high viral productivity suggests that this is a suitable system for the production of reovirus as an oncolytic agent for human therapeutic use.     

Comparison of growth and recombinant protein expression in two different insect cell lines in attached and suspension culture

Culture conditions required for obtaining maximum recombinant protein concentrations from two cell lines, Spodoptera frugiperda (IPLBeta-Sf21-AE) and Trichoplusia ni (Tn 5Beta-1-4), were determined in this work. Conditions studied include mode of culture (suspended vs attached), agitation rates, inoculum sizes, cell concentration at the time of infection, and various serum-free media (SFM). Results were compared with the performance of attached cultures in TnM-FH with 10% fetal bovine serum. Growth rates in the different culture media tested were similar, but the cell numbers achieved (i.e., yield) improved 2 to 2.7-fold in SFM over cultures in TnM-FH. Agitation rates of 150-160 rpm were necessary for maximum growth of suspended Tn 5Beta-1-4 cells compared to 125-150 rpm for Sf-21 cells. An inoculum size of 5 x 10(5) cells/mL gave good growth rates and optimum biomass yields for both cell lines. Cultures of both cell lines were infected with viruses encoding for beta-galactosidase or human secreted alkaline phosphatase (seAP). Protein expression in TnM-FH in attached culture showed that Tn 5Beta-1-4 cells are 2-4.5 times more productive on a per cell basis than Sf-21 cells grown under similar conditions. Production of beta-galactosidase in Sf-21 cells increased 50% in suspension cultures with SFM compared to attached cultures in TnM-FH, but seAP expression was essentially unchanged by culture techniques. The Tn 5Beta-1-4 cells produced 2.6-4.4 and 2.7-3 times more beta-galactosidase and seAP, respectively, in SFM in suspension compared to Sf-21 cells. EX-CELL 401 and Sf900-II were formulated as optimized SFM for Sf cell lines. However, in Sf-21 cultures EX-CELL 400 performed better than the other two media, as it increased the beta-galactosidase yield up to 25%. Surprisingly, EX-CELL 401 was the best medium for the production of beta-galactosidase by Tn 5Beta-1-4 cells, resulting in 25% and 69% higher volumetric and specific yields, respectively, compared to EX-CELL 405 which was formulated for this specific cell line. These results show that even when culture media are designed for maximal growth of a specific cell line, other media may provide the best conditions for protein production.     

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.     

Rapid assessment of Autographa californica nuclear polyhedrosis virus infection of Sf-9 insect cells by analyzing suppression of reagent-induced apoptosis

Spodoptera frugiperda Sf-9 insect cells that undergo apoptosis by the treatment of apoptosis-inducing reagents were individually determined as `comet cells' having a tail of fragmented DNA during single cell gel electrophoresis, the fragmented DNA being migrated from the cells under an electric field of the electrophoresis. However, the apoptosis induction of the cells infected with a recombinant strain of Autographa californica nuclear polyhedrosis virus (AcMNPV) was blocked, probably by an intrinsic anti-apoptotic p35 gene of the virus, because the virus-infected cells did not have a tail of fragmented DNA on a single cell gel electrophoresis. The virus-infected cells were individually discriminated from non-infected cells by determining the anti-apoptotic nature of the cells. At higher multiplicity of infection and under better aeration conditions of virus-infected cultures, the apoptosis-suppressive ratio, which represented a ratio of non-comet cells, was increased more rapidly. This apoptosis-suppressive behavior was a good benchmark for assessing successful infection of insect cells with AcMNPV during very early infectious period and forecasting the subsequent production of recombinant proteins.     

The response of virally infected insect cells to dissolved oxygen concentration: recombinant protein production and oxidative damage

The effects of dissolved oxygen (DO) concentration on virally infected insect cells were investigated in 3-L bioreactor culture. Specifically, cultures of Spodoptera frugiperda Sf-9 (Sf-9) and Trichoplusia ni BTI-Tn-5B1-4 (Tn-5B1-4) were infected with Autographa californica multiple nucleopolyhedrovirus expressing secreted alkaline phosphatase (SEAP). Following infection at a DO concentration of 50% air saturation, the DO concentration was adjusted to a final value of either 190%, 50%, or 10% air saturation. Recombinant SEAP production, cell viability, protein carbonyl content, and thiobarbituric acid reactive substances (TBARS) content were monitored. The increases in protein carbonyl and TBARS contents are taken to be indicators of protein oxidation and lipid oxidation, respectively. DO concentration was found to have no noticeable effect on SEAP production or cell viability decline in the Sf-9 cell line. In the Tn-5B1-4 cell line, cells displayed an increased peak SEAP production rate for 190% air saturation and displayed an increased rate of viability decline at increased DO concentration. Protein carbonyl content showed no significant increase in the Sf-9 cell line by 72 h postinfection (pi) at any DO concentration but showed a twofold increase at 10% and 50% DO concentration and a threefold increase at 190% DO concentration by 72 h pi in Tn-5B1-4 cells. TBARS content was found to increase by approximately 50% in Sf-9 cells and by approximately twofold in Tn-5B1-4 cells by 72 h pi with no clear relationship to DO concentration. It is hypothesized that oxygen uptake changes due to the viral infection process may bear a relation to the observed increases in protein and lipid oxidation and that lipid oxidation may play an important role in the death of virally infected insect cells.