Production of selected baculoviruses in newly established lepidopteran cell lines

Summary One key to the in vitro mass production of baculoviruses is the development of insect cell lines capable of producing high levels of extracellular virus (ECV) and/or occlusion bodies (OBs). For this study, 34 newly established cell lines from 10 lepidopteran species were screened for their ability to produce ECV and OBs from a variety of baculoviruses. The selected baculoviruses included: the alfalfa looper virus (AcMNPV); the celery looper virus (AfMNPV); the velvetbean caterpillar virus (AgMNPV), the bollworm virus (HzSNPV), the diamondback moth virus (PxMNPV), and the beet armyworm virus (SeMNPV). ECV titers were determined using TCID₅₀ assays (50% tissue culture infectivity dose), with the presence or absence of OBs being noted. For AcMNPV, 28 new cell lines were tested, with eight producing AcMNPV ECV titers of 1.1–47.3×10⁶ TCID₅₀/ml and 11 producing OBs. For AgMNPV, six new cell lines were tested, with all producing AgMNPV ECV titers of 3.5–62.3×10⁶ TCID₅₀/ml and generating OBs. For HzSNPV, four new cell lines were tested with three lines producing HzSNPV ECV titers of 1.4–5.0×10⁶TCID₅₀/ml, but none generating OBs. For PxMNPV, 10 new cell lines were tested with seven generating PxMNPV ECV titers of 4.7–232.6×10⁶TCID₅₀/ml and eight producing OBs. Lastly, using qualitative or semiquantitative methods, homologous cell lines were tested for AfMNPV and SeMNPV production, all of which produced OBs. Overall, many of the cell lines tested were found to produce OBs and generate moderate to high levels of ECVs of one or more baculoviruses. All programs and services of the USDA Department of Agriculture are offered on a nondiscriminatory basis without regard to race, color, national origin, religion, sex, age, marital status or handicap.     

Comparative activity of baculoviruses against the codling moth Cydia pomonella and three other tortricid pests of tree fruit

The granulovirus of Cydia pomonella (L.) (CpGV) offers potential for selective control of codling moth. Two major limitations of CpGV are its narrow host range and lack of persistence in the orchard agroecosystem. The nucleopolyhedroviruses of the alfalfa looper Autographa californica (Speyer) (AcMNPV) and those of the celery looper Anagrapha falcifera (Kirby) (AfMNPV) have broad host ranges. Comparative assays of CpGV, AcMNPV, and AfMNPV against codling moth neonate larvae revealed a 54-93-fold greater susceptibility of codling moth to the granulovirus than to the two nucleopolyhedroviruses based on the LC(50) values for each virus. The LC(50)s for CpGV, AfMNPV, and AcMNPV were 32.7 capsules/mm(2), 1.77 x 10(3) occlusion bodies (OBs)/mm(2), and 3.05 x 10(3)OBs/mm(2), respectively. The LT(50) determined for AfMNPV using an approximate LC(95) of the virus against neonate larvae was 3.6 days. Histological examination of tissues in moribund codling moth larvae that had been treated with AfMNPV revealed the presence of nonoccluded and unenveloped virus rods in midgut tissue. Neither OBs nor signs of infection were detected in other tissues. The activity of AfMNPV was also evaluated in three other tortricid apple pests (obliquebanded leafroller, Choristoneura rosaceana (Harris); Pandemis leafroller, Pandemis pyrusana Kearfott; and the oriental fruit moth, Grapholitha molesta (Busck)). Codling and Oriental fruit moths were significantly more susceptible to AfMNPV than were the two leafroller species.     

The establishment of new cell lines from Pseudaletia unipuncta with differential responses to baculovirus infection

Summary Six insect cell lines from Pseudaletia unipuncta embryos were established and characterized, and their susceptibility to Autographa californica multiple nuclear polyhedrosis virus (AcMNPV) infection was investigated. These embryonic P. unipuncta cell lines had characteristics distinct from each other in morphology and growth, and showed differential responses to AcMNPV infection. Among the six cell lines, two were highly susceptible to virus infection. One of these two cell lines, BTI-Pu-A7S, produced over 100 AcMNPV occlusion bodies per cell, on average. Three cell lines showed an apoptotic response following AcMNPV infection. One cell line did not support complete virus replication through the late phase of virus growth and did not exhibit apoptosis. The P. unipuncta cell lines could be distinguished from SF21 and BTI-Tn-5B1-4 cells by their isozyme markers.     

A suspended cell line from Trichoplusia ni (Lepidoptera): Characterization and expression of recombinant proteins

A suspended cell line from Trichoplusia ni embryos was established, and its susceptibility to Autographa californica multiple nuclear polyhedrosis virus (AcMNPV) infection was investigated. This cell line had characteristics distinct from the BTI‐Tn5Bl‐4 cell line (Tn5Bl‐4) from T. ni in growth, and showed approximately the same responses to AcMNPV infection, production of occlusion bodies, and levels of recombinant protein expression. No clumps were observed at maximum cell density at late‐log phase in shake‐flask or T‐flask cultures, and thus the cells represent a useful new contribution for baculovirus research. The cells consist of two major morphological types: approximately 70% spindle‐shaped cells and 30% round cells. The cell line was highly susceptible to virus infection and produced around 107 AcMNPV occlusion bodies per cell, on average. Production of β‐galactosidase and secreted alkaline phosphatase was high with 3.97 ± 0.13 × 10⁴IU/mL and 3.48 ± 0.40 IU/mL, respectively. This cell line may be applicable for studies of scale‐up production of viruses or baculovirus‐insect cell expression. We also believe the new line can be a source for cell clones with higher production of virus and recombinant proteins compared to the parent or other existing cell lines such as Tn5Bl‐4.     

Enhancement in activity of homologous and heterologous baculoviruses infectious to beet armyworm (Lepidoptera: Noctuidae) by an optical brightener

The nuclear polyhedrosis virus (NPV) from the beet armyworm, Spodoptera exigua (Hübner) (SeMNPV), was the most active virus tested against the beet armyworm (LC50 = 4.1 PIBs/mm2), followed by nuclear polyhedrosis viruses from the alfalfa looper, Autographa californica (Speyer) (AcMNPV; LC50 = 92.6 PIBs/mm2), and the celery looper, Anagrapha falcifera (Kirby) (AfMNPV; LC50 = 195.7 PIBs/mm2). In the case of the nuclear polyhedrosis virus from the bollworm, Helicoverpa armigera (Hübner), LC50s could only be obtained for five/six replicates, whereas LC50s could only be obtained for two/six replicates for the nuclear polyhedrosis virus from the wax moth, Galleria mellonella (L.) (GmMNPV). When an optical brightener Tinopal LPW was added to virus suspensions, LC50 values were reduced by 130-fold for both SeMNPV and AcMNPV and by 300-fold for AfMNPV. The addition of Tinopal LPW greatly increased the activities of HaMNPV and GmMNPV. In terms of speed of kill, Tinopal LPW reduced the LT50s for all nuclear polyhedrosis viruses by 30-40%.     

Two new cell lines originated from the embryos of <Emphasis Type="Italic">Clostera anachoreta</Emphasis> (Lepidoptera: Notodontidae): characterization and susceptibility to baculoviruses

Two cell lines designated CAF-Clan I and CAF-Clan II have been established from embryos of Clostera anachoreta (Lepidoptera: Notodontidae) in TNM-FH medium containing 10% inactivated fetal bovine serum. CAF-Clan I consists of a mixture of three cell types: spherical cells, spindle-shaped cells, and giant cells. Most of the cultured cells formed a suspension in the medium and were subcultured more than 60 passages. CAF-Clan II mainly consists of spindle-shaped and spherical cells which attached to the culture surface and have undergone more than 40 passages. The cell population doubling time at 27°C of CAF-Clan I at passage 22 and CAF-Clan II at passage 24 was about 68.5 and 38.2 h, respectively. The chromosome number of both cell lines at passage 15 varied from 62 to 100 in the majority of cells, though a few cells exceeded 260 (n = 30). DNA amplification fingerprinting–polymerase chain reaction analysis confirmed that the origination of the two cell lines was C. anachoreta. The susceptibility of the cell lines to baculoviruses was tested. The results showed that CAF-Clan II was susceptible to infection of Autographa californica nucleopolyhedrovirus (AcMNPV) and Ecotropis oblique nucleopolyhedrovirus (EoNPV). Occlusion bodies (OBs) production was 129 ± 4 OBs/cell and 124 ± 15 OBs/cell for AcMNPV and EoNPV, respectively. CAF-Clan I was less susceptible to AcMNPV compared with CAF-Clan II, while non-permissive to EoNPV.     

Relative activity of baculoviruses of the diamondback moth, <Emphasis Type="Italic">Plutella xylostella</Emphasis> (L.) (Lepidoptera: Plutellidae)

The relative activities of the granulovirus (PxGV) and the nucleopolyhedrovirus (PxMNPV) of the diamondback moth, Plutella xylostella (L.), against this insect were evaluated in the laboratory. Similar numbers of occlusion bodies (OBs) of PxGV and PxMNPV were required to kill P. xylostella. However, cadavers of insects infected with PxGV contained more OBs per unit weight than did cadavers infected with PxMNPV. Less cadaver material was thus required to kill insects with PxGV. Larvae that were killed by PxGV survived approximately 2 d longer than did those killed by PxMNPV. When P. xylostella larvae were fed both viruses together, mortality was higher than that caused by either virus alone. The virulence of PxMNPV produced in P.␣xylostella did not differ from that of PxMNPV produced in the beet armyworm, Spodoptera exigua (Hübner). S. exigua was less susceptible to PxMNPV than to its homologous nucleopolyhedrovirus, SeMNPV. Use of trade names does not imply endorsements by USDA-ARS of products named nor criticism of similar ones not mentioned.     

Yield and activity of Autographa californica multicapsid nucleopolyhedrovirus and Phthorimaea operculella granulosis virus in cloned and uncloned cell lines of P. operculella

Three selected uncloned Pop 2, Pop 3, Pop 4 and two cloned cell lines Pop cl1A and Pop cl2B were derived from the original cell line established from Phthorimaea operculella (ORS-Pop-93). Three new non-selected cell lines ORS-Pop-94A, ORS-Pop-94B and ORS-Pop-95 were also established from embryos of the same insect. Differences in morphology, growth rate and polypeptide profile were determined between these cell lines. All the cell lines were susceptible to the Autographa californica nucleopolyhedrovirus (AcMNPV). The cloned cell lines produced higher levels of AcMNPV (TCID-50 and PIB) than the parental cells and at the same rate as the Sf9 reference cell line. Substantial amounts of viral DNA were synthesized in the clone Pop cl 2B after infection with the granulosis virus of the potato tuber moth P. operculella (PTMGV) and a complete multiplication was obtained in the ORS-Pop-95 cell line. The comparison between Pop cell lines which support limited or complete replication of certain baculoviruses can offer insights into some of the molecular barriers which restrict the host range of these viruses. These cell lines with variable susceptibility to baculoviruses could also be used for in vitro recombinations, increasing their virus host range to be used for the control of this pest. This revised version was published online in August 2006 with corrections to the Cover Date.     

Baculovirus infection influences host protein expression in two established insect cell lines

We identified host proteins that changed in response to host cell susceptibility to baculovirus infection. We used three baculovirus-host cell systems utilizing two cell lines derived from pupal ovaries, Hz-AM1 (from Helicoverpa zea) and Hv-AM1 (from Heliothis virescens). Hv-AM1 cells are permissive to Autographa californica multiple nucleopolyhedrovirus (AcMNPV) and semi-permissive to H. zea single nucleopolyhedrovirus (HzSNPV). Hz-AM1 cells are non-permissive to AcMNPV. We challenged each cell line with baculovirus infection and after 24 h determined protein identities by MALDI TOF/TOF mass spectrometry. For Hv-AM1 cells, 21 proteins were identified, and for Hz-AM1 cells, 19 proteins were newly identified (with 8 others having been previously identified). In the permissive relationship, 18 of the proteins changed in expression by 70% or more in AcMNPV infected Hv-AM1 cells as compared with non-infected controls; 12 were significantly decreased and 6 cellular proteins were significantly increased. We also identified 3 virus-specific proteins. In the semi-permissive infections, eight proteins decreased by 2-fold or more. Non-permissive interactions did not lead to substantial changes in host cell protein expression. We hypothesize that some of these proteins act in determining host cell specificity for baculoviruses.     

Replication ofAutographa californica baculovirus (AcMNPV) in a coleopteran cell line

Summary A coleopteran cell line (AGE) derived from the cotton boll weevilAnthonomus grandis supported replication ofAutographa californica multiple nuclear polyhedrosis virus (AcMNPV). The titer of extracellular virus (ECV) and the number of occlusion bodies (OB) produced in AGE cells were approximately equal to those produced by aTrichoplusia ni cell line (TN-CL1), and the OB produced by both cell lines were equally infectious forT. ni larvae. The identity of the AGE cell line was established by chromosome and isoenzyme analyses.     

Comparison of cell line maintenance procedures on insect cells used for producing baculoviruses

Summary A gypsy moth cell line, IPLB-LdEIta, maintained under various conditions was tested for susceptibility to and productivity of two baculoviruses, the Autographa californica nucleopolyhedrovirus (AcMNPV) and Lymantria dispar nucleopolyhedrovirus (LdMNPV). The results suggest that cells maintained in serum-containing medium (modified TC100) were more susceptible (on the basis of titers in an endpoint assay) to LdMNPV than cells maintained in a serum-free medium (ExCell™ 400). Such a difference was not apparent with AcMNPV. Similarly, little difference existed in the proportion of cells containing occlusion bodies (OBs) a wk after inoculation with AcMNPV (i.e., the percent infected) in any LdEIta strains, although one combination of cells and medium (cells maintained in ExCell 400 but infected in TC100) showed a lower percent infection with LdMNPV. Even though the percentage of cells infected varied little, the number of OBs produced varied by 3 logs with AcMNPV and 11/2 logs with LdMNPV. In each case, cells normally grown in ExCell 400 and infected in the same medium produced the lowest number of OBs. However, productivity was improved when cells normally grown in ExCell 400 were infected in TC100. Even more interesting was that cells normally grown in TC100 produced more AcMNPV OBs when infected in ExCell 400 medium. This suggests that changing culture medium (regardless of the normal maintenance medium) can stimulate virus production. In addition to examining virus productivity in LdEIta cells in both serum-containing and serum-free media, I also tested a strain maintained at low temperature (17° C) for over a yr. This maintenance protocol was not detrimental for LdMNPV productivity and was slightly stimulatory for production of AcMNPV.     

Susceptibility to AcMNPV and expression of recombinant proteins by a novel cell clone derived from a <Emphasis Type="Italic">Trichoplusia ni</Emphasis> QAU-BTI-Tn9-4s cell line

It is well known that Tn5B1-4 (commercially known as the High Five) cell line is highly susceptible to baculovirus and provides superior production of recombinant proteins when compared to other insect cell lines. But the characteristics of the cell line do not always remain stable and may change upon continuous passage. Recently an alphanodavirus, named Tn5 Cell Line Virus (or TNCL Virus), was identified in High Five cells in particular. Therefore, we established a new cell line, QB-Tn9-4s, from Trichoplusia ni, which was determined to be free of TNCL virus by RT-PCR analysis. In this paper, we describe the development of a novel cell clone, QB-CL-B, from a low passage QB-Tn9-4s cell line and report its susceptibility to AcMNPV, and the level of recombinant protein production. This cell clone was similar to its parental cells QB-Tn9-4s and Tn5B1-4 cells in morphology and growth rate; although it also showed approximately the same responses to AcMNPV infection and production of occlusion bodies, there were higher levels of recombinant protein production in comparison to QB-Tn9-4s (parental cells) and High5 cells.     

Cell lines from diamondback moth exhibiting differential susceptibility to baculovirus infection and expressing midgut genes

Abstract Six new cell lines were established from embryonic tissues of the diamondback moth, Plutella xylostella (L.). The cell lines showed differential characteristics, including growth in attachment or in suspension, susceptibility to a baculovirus infection and expression of genes involved in the glucosinolate detoxification pathway in R xylostella larvae. Five of the cell lines grew attached to the culture flask and one cell line grew unattached as a suspension cell line. The cell lines had population doubling times ranging from IS to 23 h. Among five of the P. xylostella cell lines examined for infection of a nucleopolyhe. drovirus from Autographa californica, AcMNPV four cell lines were highly susceptible to AcMNPV infection, but one was only semi-permissive to AcMNPV infection. The production of two recombinant proteins, a β-galactosidase of bacterial origin and a secreted alkaline phosphatase of eukaryotic origin, in the R xylostella cell lines was examined in comparison with that in the cell line Sf9 which is commonly used for recombinant protein production. In the P. xylostella cell lines, expression of three important midgut genes involved in the glucosinolate detoxification pathway, including the glucosinolate sulfatase genes GSS1 and GSS2 and the sulfatase modifying factor gene SUMF1、was detected. The R xylostella cell lines developed in this study could be useful in in vitro research systems for studying insec-virus interactions and complex molecular mechanisms in glucosinolate detoxification and insect-plant interactions.     

Serial passage of a Helicoverpa armigera nucleopolyhedrovirus in Helicoverpa zea cell cultures

The serial passaging of baculoviruses in cell lines numerous times can result in a variety of mutations or defective viral populations becoming predominant in the cultures. The generation of these mutants during cell culture passage, also known as "the passage effect," can seriously hinder the use of in vitro methods for large-scale production of baculoviruses for use as biopesticides. In an effort to develop a large-scale in vitro method of producing Helicoverpa armigera singly enveloped nucleopolyhedrovirus (HaSNPV), it was essential to determine whether or not the passage effect was evident when this virus is serially passaged in cell cultures. An isolate of HaSNPV was serially passaged in Helicoverpa zea cell cultures up to 10 times. The production of occlusion bodies decreased with increasing passage number and there was evidence of defective viruses becoming predominant in cultures after 5 passages. The number of virions present within cross sections of passage 3 occlusion bodies was 1.5 times higher than those from passage 10 occlusion bodies when quantified using electron microscopy. A laboratory bioassay showed that potencies of passage 3 isolates against H. armigera larvae were 8 times higher than potencies of passage 10 isolates. This study indicated that changes typical of the passage effect were evident when HaSNPV was serially passaged in H. zea cell cultures up to 10 times.     

Establishment and characterization of insect cell lines from 10 lepidopteran species

Summary Cell lines from selected lepidopteran species were established for the overall purpose of use in baculovirus production. A total of 36 new cell lines from 10 lepidopteran species were generated, including cell lines from a pyralid, the European corn borer,Ostrinia nubilalis, a plutellid, the diamondback moth,Plutella xylostella, as well as eight noctuids: the black cutworm,Agrotis ipsilon, the celery looper,Anagrapha falcifera, the velvetbean caterpillar,Anticarsia gemmatalis, the corn earworm,Helicoverpa zea, the tobacco budworm,Heliothis virescens, the beet armyworm,Spodoptera exigua, the fall armyworm,Spodoptera frugiperda, and the cabbage looper,Trichoplusia ni. Tissues used for cell line establishment included fat bodies, ovaries, testes, or whole embryos/larvae/pupae. All the cell lines were subcultured numerous times, characterized by isoenzyme analysis and/or deoxyribonucleic acid amplification fingerprinting using polymerase chain reaction, and stored in liquid nitrogen. Many of the cell lines were adapted to grow in serum-free medium, with cell lines fromA. ipsilon andH. virescens being adapted to suspension culture, using shaker flasks. The potential use for these cell lines in baculovirus production is discussed. All programs and services of the U.S. Department of Agriculture are offered on a nondiscriminatory basis without regard to race, color, national origin, religion sex, age, marital status, or handicap.     

Highly passage of <Emphasis Type="Italic">Spodoptera litura</Emphasis> cell line causes its permissiveness to baculovirus infection

It is well known that the characteristics of cell lines possibly alter when cell lines are at high-passage number because of the environmental selection. We do not know whether non-permissive or low-permissive cell lines could become permissive or more permissive to virus infection after over-high passage. In the present studies, the alteration of the permissiveness of Spodoptera litura cell line Sl-zsu-1 to three baculovirus infection was investigated after over-high passage, and the possible mechanisms are also investigated. Vigorous apoptosis in Sl-zsu-1 cells was induced by both the recombinant Autographa californica multiple nucleopolyhedrovirus AcMNPV-GFP-actin and the celery looper Anagrapha falcifera multiple nucleopolyhedrovirus AfMNPV, suggesting the replication of the two viruses was blocked by apoptosis. However, the cells infected by S. litura multicapsid nucleopolyhedrovirus SpltMNPV did not undergo apoptosis, but the SpltMNPV titre of the supernatant was not detectable, suggesting this cell line was low-permissive for this virus infection and other factor(s) involved in blockage of the virus replication except apoptosis. However, when Sl-zsu-1 cells had been subcultured continuously for more than 4 years (high-passage cell), which was named as Sl-HP cell line afterwards, no significant apoptosis was induced by the three baculovirus in Sl-HP cells, and many replicated virions or nucleocapsids were observed in the cells. But the permissiveness of Sl-HP cells to the three viruses was very different according to the titre of viruses in the cell cultures. Interestingly, the DNA extracted from SpltMNPV could induce vigorous apoptosis of Sl-HP cells. Altogether, Sl-zsu-1 cell line becomes more permissive to baculovirus infection after over-high passage and multiple paths can block the baculovirus infectivity.     

Establishment of a cell line from embryos of the cabbage looper,Trichoplusia ni (hubner)

Summary A new cell line was developed from 3-d-old embryonated eggs of the cabbage looper,Trichoplusia ni, and has been designated IPLB-TN-R². It contains a variety of morphological cell types, including myoblastlike, neuroblastlike, and epithelial-like cells. Chromosome analysis revealed typical lepidopteran chromosomes. Isozyme characterization showed patterns similar to two other cabbage looper cell lines (TN-368 and IAL-TND1) in the case of five enzymes but differed from these two lines for two other enzymes. Virus infectivity tests revealed the line is highly susceptible toAutographa californica nuclear polyhedrosis virus, but no cytopathology was observed after inoculation with several other lepidopteran viruses.     

Effects of long- and short-term passage of insect cells in different culture media on baculovirus replication

Two insect cell lines that had been maintained in both serum-free (SFM) and serum-containing (SCM) media for over 5 years were each tested for their ability to replicate baculovirus. The gypsy moth cell line, IPLB-LdEIta (Ld), produced similar (not statistically different) amounts of gypsy moth nucleopolyhedrovirus (LdMNPV) occlusion bodies (OBs) in the two media (serum-free Ex-Cell 400 and TC-100 with 9% (v/v) fetal bovine serum, SCM(1)) but produced more of the Autographa californica nucleopolyhedrovirus (AcMNPV) OBs in SFM than in SCM(1). When Ld cells normally grown in SCM(1) were switched to SFM, production of OBs from both viruses improved and, after three passages, reached higher levels of AcMNPV production than in cells normally maintained in that medium. Alternatively, cells switched from SFM to SCM(1) initially produced as much (in the case of LdMNPV) or higher (in the case of AcMNPV) levels of virus OBs than cells normally maintained in SCM(1) but productivity dropped off over subsequent passages such that after five passages in SCM(1), cells produced substantially fewer OBs of both viruses. A fall armyworm cell line (IPLB-SF21AE; Sf) showed slightly different effects from long- and short-term passage in SFM (Ex-Cell 400) or SCM(2) (TMN-FH). Cells maintained in SFM produced about 20 times more AcMNPV OBs than cells maintained long-term in SCM. Sf cells switched from SFM to SCM maintained the level of production of that seen in SFM at the first passage, but quickly dropped off OB production levels to that normally seen in SCM. Alternatively, SCM-maintained Sf cells produced higher levels at the first passage in SFM and, within five passages in SFM, reached levels found in cells maintained for long term in this medium. Under the conditions in which these two cell lines were infected, the highest levels of AcMNPV OB production in Ld cells were about five times that of Sf cells. In a separate series of experiments, cells normally grown in SFM were passaged over five times in Ex-Cell 400 to which serum was added; both cell lines produced as much virus as that in SFM. These results suggest that it is not the serum per se but rather some other components which differ between the SFM and the SCM formulations that are responsible for the varied virus production obtained in these studies. The results of these studies suggest that a maintenance and virus production protocol can be developed with Ld cells which could improve overall efficiency of virus production. These studies also suggest that long-term maintenance of cells in SFM was not detrimental to their ability to produce baculoviruses.     

Establishment of a cell line from Chrysodeixis chalcites permissive for Chrysodeixis chalcites and Trichoplusia ni nucleopolyhedrovirus

A new cell line was established from the embryos of the insect Chrysodeixis chalcites (Lepidoptera, Noctuidae, Plusiinae). The cell line contains several morphologically different cell types and was distinguished from three other lepidopteran cell lines propagated in the laboratory by DNA amplification fingerprinting. The cultured cells, which we officially named WU-CcE-1 cells, were permissive for infection by C. chalcites nucleopolyhedrovirus (ChchNPV) and large numbers of occlusion bodies were produced that retained their infectivity for C. chalcites larvae. The CcE-1 cells were also permissive for Trichoplusia ni single nucleopolyhedrovirus (TnSNPV). ChchNPV could be passaged in these cells for at least four passages indicating that budded virus production was supported. Autographa californica multiple nucleopolyhedrovirus (AcMNPV) and Helicoverpa armigera (Hear) NPV both induced apoptosis in these cells. The results obtained indicate that the CcE-1 cell line will be a useful tool in the study of both ChchNPV and TnSNPV.     

Expression of the green fluorescent protein carried by Autographa Californica multiple nucleopolyhedrovirus in insect cell lines

Summary A recombinant AcMNPV containing the green fluorescent protein (gfp) gene under the polyhedrin promoter (polh) was used to investigate the expression of the gfp gene as well as the production of recombinant extracellular virus in 14 continuous insect cell lines, including Heliothis virescens (BCIRL-HV-AM1), Helicoverpa zea (BCIRL-HZ-AM1), Anticarsia gemmatalis (BCIRL-AG-AM1), Trichoplusia ni (TN-CL1), Spodoptera frugiperda (IPLB-SF21), Spodoptera exigua (BCIRL/AMCY-Se-E1 and BCIRL/AMCY-Se-E5), Bombyx mori (BMN), Sf9 (a clone of IPLB-SF21), and five cell line clones of BCIRL-HV-AM1. The susceptibility of the cell lines to the recombinant virus (AcMNPV.GFP) was ascertained by calculating the mean percentage number of green light-emitting cells as well as by TCID₅₀ titration of extracellular virus with fluorescence as a sign of infection. Of the 14 cell lines tested, all were permissive with varying degrees to Ac-MNPV.GFP, except BCIRL-HV-AMCL2 and BCIRL-HZ-AM1, both grown in serum-containing medium, and BMN, grown in serum-free medium, which were nonpermissive to the virus. Except for BCIRL/AMCY-Se-E1, IPLB-SF21, and four of the five BCIRL-HV-AM1 clones, all the other cell lines (BCIRL-HV-AM1, BCIRL-AG-AM1, TN-CL1, Se-E5, and Sf9) expressed detectable levels of GFP by 48 h postinoculation. The BCIRL/AMCY-Se-E1 and IPLB-SF21 cells, grown in serum-free medium (Ex-Cell 401), expressed detectable levels of GFP at 72 h postinoculation. By contrast, in BCIRL/AMCY-Se-E1 in serum-containing medium (Ex-Cell 401+10% FBS [fetal bovine serum]), GFP was detected at 48 h postinoculation. Furthermore, TN-CL1 cells produced the largest mean percentage number of fluorescent (76.6%) cells in both serum-containing and serum-free medium (64.8%) at 120 h postinoculation. All the BCIRL-HV-AM1 clones showed no GFP expression until 96 h postinoculation, and only then about 1% of the cell population fluoresced. The mean extracellular virus (ECV) production at 120 h postinoculation was highest in BCIRL/AMCY-Se-E5 cells grown in Ex-Cell 401+10% FBS (37.8×10⁶ TCID₅₀/ml) followed by BCIRL-HV-AM1 in TC199-MK (33.4×10⁶ TCID₅₀/ml). Only the BCIRL-HV-AMCL3 clone produced any substantial level of ECV at 120 h postinoculation (16.9×10⁶ TCID₅₀/ml). However, there was no significant correlation between ECV production and the mean percentage number of fluorescent cells. This study provides further information on the susceptibility of 14 insect cell lines to a recombinant AcMNPV containing the green fluorescent protein gene. This information might avail researchers with information to facilitate decisions as to what other cell lines are available for in vitro studies of the gfp gene.