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.     

Detection of Autographa californica and Heliothis zea baculovirus proteins by enzyme-linked immunosorbent assay (ELISA)

The structural proteins of Autographa californica (AcMNPV) and Heliothis zea (HzSNPV) nuclear polyhedrosis viruses were detected by indirect enzyme-linked immunosorbent assay (ELISA). The immunoassay detected less than 1 ng of AcMNPV protein. The extent of immunological relatedness between AcMNPV-occluded virus and AcMNPV polyhedral protein, AcMNPV-nonoccluded virus, Estigmene acrea granulosis virus, Amsacta moorei entomopoxvirus Heliothis zea NPV, and Lymantria dispar NPV was determined. No immunological relatedless was detected between HzSNPV, AcMNPV, and a persistent rod-shaped virus isolated from the Heliothis zea cell line (IMC-Hz-1). The polyhedral proteins of HzSNPV and AcMNPV were found to be immunologically identical.     

Replication and serial passage of infectious Heliothis nucleopolyhedrosis virus in an established line of Heliothis zea cells

An established cell line derived from the ovary of adults of the cotton bollworm, Heliothis zea, supported growth of the Heliothis nucleopolyhedrosis virus (NPV). Typical NPV symptoms were obtained when infected cells were fed to neonatal bollworms; however, the cell line never produced free virions or inclusion bodies containing virions. Infectious virus was passed through the cell line 7 consecutive times, using only infected cells from the previous pass. Infectivity at the 7th serial-pass represented a dilution of >10⁻⁸ of the original inoculum.     

Yield and activity of theHeliothis zea single nuclear polyhedrosis virus propagated in cloned and uncloned lines ofHeliothis cells

Summary Heliothis cell lines originated from different laboratories were characterized by isoenzyme analysis and then evaluated for their ability to produce the single nuclear polyhedrosis virus ofHeliothis zea (HzSNPV). A cloned cell line (designated Hzlb3), whose homogeneity was supported by both morphological and isoenzyme analysis, was derived from a parental line (Hzl). Significantly greater yields (about 10-fold) of tissue-culture-derived, non-occluded virus (TCNOV) were obtained when compared to the parental line. The Hzlb3 clone also gave significantly higher yields of TCNOV than the Hz3 and UND-K cell lines. Although lines Hzl, Hz3, and Hzlb3 produced significantly more polyhedral inclusion bodies (PIB) than line UND-K, the infectivity of PIB from UND-K equaled that of lines Hzl and Hzlb3.     

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.     

Role of the exoprotease InA in the pathogenicity of Bacillus thuringiensis in pupae of Hyalophora cecropia

Two geographical biotypes of Nomuraea rileyi (from Ecuador and the United States) were topically bioassayed against seven lepidopteran species, i.e., Anticarsia gemmatalis, Heliothis zea, Heliothis virescens, Heliothis subflexa, Pseudoplusia includens, Spodoptera exigua, and Trichoplusia ni. There was an average difference of 1.7-fold in mortality in how cultures of the same insect species from different sources responded to topical applications of either biotype of N. rileyi. Regression equations and LC₅₀ values were obtained for each insect species and fungal biotype combination. Larvae of S. exigua were equally susceptible to both biotypes of N. rileyi. Although larvae of A. gemmatalis were moderately susceptible to the Ecuadoran biotype, they were relatively nonsusceptible to the Mississippian biotype. Species of Heliothis (H. zea, H. virescens, and H. subflexa) were about equally susceptible to the Mississippian biotype. Larvae of H. subflexa and H. virescens, however, were significantly less susceptible than H. zea to the Ecuadoran biotype. When the integumental barrier was breached via intrahemocoelic injections, larvae of H. virescens were as susceptible as H. zea larvae to blastospores of either biotype of N. rileyi.     

Alkanes of four related moth species,Helicoverpa and Heliothis

Comparison of the presence and quantities of cuticular hydrocarbons has been used successfully for identifying sibling species and races of several groups of insects. This approach has been extended to four species of moths previously regarded as belonging to the same genus, Heliothis. Gas chromatography was used to quantify the numerous high-molecular weight alkanes found on the cuticle of two pairs of closely related species: Helicoverpa zea and Helicoverpa armigera, and Heliothis virescens and Heliothis subflexa. Both sexes of H. zea and H. armigera contained different quantities of several alkanes that could be used for unambiguous identification. Similar comparisons of H. subflexa and H. virescens showed four peak ratios that were different for each species. Sexual dimorphism was minor in H. subflexa and H. virescens.     

Comparative peptide mapping of baculovirus polyhedrins

Amino terminals and two-dimensional high-voltage peptide maps of tryptic digests of polyhedrins from Heliothis armigera nuclear polyhedrosis virus (NPV), Heliothis zea NPV, and Anticarsa gemmatalis NPV were compared with previously characterized granulins and polyhedrins. Similarities and differences were detected in the tryptic maps, while each protein produced a unique peptide map composite. Amino-terminal determination of eight polyhedrins and granulins resulted in three different end groups.     

Genetic variation and virulence of nucleopolyhedroviruses isolated worldwide from the heliothine pests Helicoverpa armigera, Helicoverpa zea, and Heliothis virescens

To assess the diversity and relationships of baculoviruses found in insects of the heliothine pest complex, a PCR-based method was used to classify 90 samples of nucleopolyhedrovirus (NPV; Baculoviridae: Alphabaculovirus) obtained worldwide from larvae of Heliothis virescens, Helicoverpa zea, and Helicoverpa armigera. Partial nucleotide sequencing and phylogenetic analysis of three highly conserved genes (lef-8, lef-9, and polh) indicated that 67 of these samples contained isolates of the H. zea-H. armigera single nucleopolyhedrovirus (Hz/HaSNPV) species group. Eighteen of the samples contained isolates of a multiple NPV from H. armigera, HearMNPV, and five of the samples contained isolates of Autographa californica MNPV (AcMNPV). Sequencing and analysis of an additional seven loci (orf5/orf5b, hr3-orf62, orf26, orf79, orf124/orf117a, orf42, and a part of the region between hr2 and hr3) in the Hz/HearSNPV isolates further classified these viruses into two groups of HearSNPV variants mostly from India and China and a third group of HzSNPV variants. Some of the samples contained isolates of more than one virus. In bioassays of a selection of isolates against H. zea, the commercially available Gemstar® isolate of HzSNPV killed larvae faster than most other Hz/HaSNPV and HearMNPV isolates. Gemstar® and two HearMNPV isolates exhibited significantly higher LC₅₀s than the Hz/HearSNPV isolates tested. This study expands significantly on what we know about the variation of heliothine NPV populations, provides novel information on the distinct groups in which these NPVs occur, and contributes to the knowledge required for improvement of heliothine baculoviruses as biological control agents.     

Populations of Predaceous Natural Enemies Developing on Insect-Resistant and Susceptible Tomato in North Carolina

Naturally occurring populations of immature and adultGeocoris punctipes,adultColeomegilla maculataand immature coccinellids were monitored on field-grown tomato lines susceptible and resistant toManduca sextaandHelicoverpa zea. Helicoverpa zeaandHeliothis virescenseggs and small larvae that serve as prey for these predators also were monitored. MoreH. zeaandH. virescenseggs and small larvae were found on resistant than on susceptible plant lines. However, similar populations of largeH. zeaandH. virescenslarvae were found on resistant and susceptible plants. The number of adultGeocoris punctipes,adultColeomegilla maculataand immature coccinellids on resistant plants was always as high or higher than the number on susceptible plants. The data demonstrate no incompatibility of host-plant resistance with biological control provided by these predaceous insects, but indicate that the number ofG. punctipesand coccinellids required to provide effective biological control may develop too late in the season to be of practical value. Large populations of stilt bugs (Jalysus wickhami,Hemiptera: Berytidae) and spiders were observed to occur earlier in the growing season than eitherG. punctipesor coccinellids and may be a significant source of mortality forH. zeaeggs and small larvae.     

Susceptibility of larvae ofHeliothis zea,H. virescens,andH. armigera [lep.: Noctuidae] to 3 baculoviruses

The pattern of virulence (based on inclusion bodies) for 3 baculoviruses ofHeliothis, i.e. a unicapsid, nuclear polyhedrosis virus (HzSNPV); a multicapsid, nuclear polyhedrosis virus (HaMNPV); and a granulosis virus (HaGIV) was the same (HzSNPV>HaMNPV>HaGIV) for 3 species ofHeliothis. Based on numbers of nucleocapsids, however, the HaGIV was ca 2X more virulent than the HaMNPV for larvae ofH. virescens, (F.), and the HaMNPV was about 6X more virulent than the HaGIV for larvae ofH. armigera (Hübner). The fastest rate of larval mortality was obtained with HzSNPV. Although the mortality rate for HaGIV was faster than that of HaMNPV forH. virescens andH. armigera, it was slower than that of HaMNPV for larvae ofH. zea (Boddie). The pattern of susceptibility ofHeliothis species to HzSNPV and HaMNPV wasH. zea>H. virescens>H. armigera. Differences in susceptibility of the least susceptible species (H. armigera) and the most susceptible species (H. zea) to HzSNPV was ca. 1.6 X. Larvae ofH. zea, however, were ca. 4 to 6 X more susceptible to HaMNPV than were larvae ofH. virescens orH. armigera. A different pattern of susceptibility was recorded for HaGIV when larvae were challenged with HzSNPV and HaMNPV. Larvae ofH. virescens were ca. 20 and 35 X more susceptible to HaGIV than were larvae ofH. zea andH. armigera, respectively.     

Effects of cuticle source and concentration on germination of conidia of two isolates of Nomuraea rileyi

The effects of cuticle from larvae of Trichoplusia ni, Heliothis zea and H. virescens on rate and extent of germination of conidia of a Mississippian isolate (MS) and an Ecuadoran (EC) isolate of Nomuraea rileyi were studied. Solid substrates generally stimulated more germination than submerged substrates. There was little or no effect of cuticle source (H. zea or H. virescens) on germination of either the EC isolate or the MS isolate cultured on a solid substrate, however, differences in patterns of germination were obtained in submerged substrates. Addition of cuticle of H. zea or H. virescens generally increased the germination time for the MS isolate. Germination time for the EC isolate was significantly increased when H. virescens cuticle was used.This article reports the results of research only. Mention of a proprietary product in this paper does not constitute a recommendation for use by U.S. Department of Agriculture.     

Discovery of novel trimethylalkanes in the internal hydrocarbons of developing pupae of Heliothis virescens and Helicoverpa zea

Novel trimethyl-branched alkanes which eluted with the monomethylalkanes were identified in the internal lipids of Helicoverpa zea but were not present in Heliothis virescens. Their structures were unique in that the first methyl branch occurred on carbon 2 and the 2nd and 3rd methyl branch points were separated by a single methylene. Novel trimethylalkanes identified from their chemical ionization and electron impact mass spectra were 2,18,20-trimethyltetratriacontane, 2,18,20-trimethylhexatriacontane, and 2,24,26-trimethyldotetracontane. Previous reports did not find these trimethylalkanes in the cuticular surface lipids of larvae, pupae or adults of either species. The internal pupal hydrocarbons of H. virescens and H. zea amounted to 123 μg and 304 μg per pupa, respectively. They consisted of n-alkanes (8 and 4%, respectively) and methyl-branched alkanes (88 and 94%, respectively). The n-alkanes ranged in chain length from approximately 21 to 35 carbons and the methyl-branched alkanes from approximately 26 to 55 carbons vs. methyl-branched alkanes from 28 to 37 carbons previously reported for hydrocarbons from the pupal cuticular surface. The major n-alkane was heptacosane (3.3 and 1.2%, respectively, in H. virescens and H. zea). The major methyl-branched alkanes in H. virescens were methylhentriacontane (15%), methyltritriacontane (12%) and dimethyltritriacontane (10%), and in H. zea were methylnonacosane (17%), dimethylnonacosane (9%) and methylhentriacontane (20%). Except for the novel trimethylalkanes, the methylalkane branch points were predominantly on odd-numbered carbons as has been reported for these and other species.     

A host-plant specialist, Helicoverpa assulta, is more tolerant to capsaicin from Capsicum annuum than other noctuid species

Plant secondary compounds not only play an important role in plant defense, but have been a driving force for host adaptation by herbivores. Capsaicin (8-methyl-N-vanillyl-6-nonenamide), an alkaloid found in the fruit of Capsicum spp. (Solanaceae), is responsible for the pungency of hot pepper fruits and is unique to the genus. The oriental tobacco budworm, Helicoverpa assulta (Lepidoptera: Noctuidae), is a specialist herbivore feeding on solanaceous plants including Capsicum annuum, and is one of a very few insect herbivores worldwide capable of feeding on hot pepper fruits. To determine whether this is due in part to an increased physiological tolerance of capsaicin, we compared H. assulta with another specialist on Solanaceae, Heliothis subflexa, and four generalist species, Spodoptera frugiperda, Heliothis virescens, Helicoverpa armigera, and Helicoverpa zea, all belonging to the family Noctuidae. When larvae were fed capsaicin-spiked artificial diet for the entire larval period, larval mortality increased in H. subflexa and H. zea but decreased in H. assulta. Larval growth decreased on the capsaicin-spiked diet in four of the species, was unaffected in H. armigera and increased in H. assulta. Food consumption and utilization experiments showed that capsaicin decreased relative consumption rate (RCR), relative growth rate (RGR) and approximate digestibility (AD) in H. zea, and increased AD and the efficiency of conversion of ingested food (ECI) in H. armigera; whereas it did not significantly change any of these nutritional indices in H. assulta. The acute toxicity of capsaicin measured by injection into early fifth instar larvae was less in H. assulta than in H. armigera and H. zea. Injection of high concentrations produced abdominal paralysis and self-cannibalism. Injection of sub-lethal doses of capsaicin resulted in reduced pupal weights in H. armigera and H. zea, but not in H. assulta. The results indicate that H. assulta is more tolerant to capsaicin than the other insects tested, suggesting that this has facilitated expansion of its host range within Solanaceae to Capsicum after introduction of the latter to the Old World about 500 years ago. The increased larval survival and growth due to chronic dietary exposure to capsaicin suggests further adaptation of H. assulta to that compound, the mechanisms of which remain to be investigated.     

Characterization and culture of virus replicating continuous insect cell lines from the bollworm,Heliothis zea (boddie)

Summary A series of five discrete virus replicating insect cell lines were isolated from the ovarian and fat body tissues ofHeliothis zea pupae. Two of these cell lines (IPLB-HZ-1075 and-HZ-1079) were studied in depth as to their growth and virus replication responses to specific nutrients (acetyl-β-methylcholine, fresh glutamine) in a number of media. The same two cell lines were identified to species by serological (microimmunodiffusion) and isozyme (phosphoglucoisomerase and peptidase:glycyl-leucine) techniques. Distinguishing comparisons were made with other cell lines that have been confused with the present lines in the literature and with cell line and host pupal extracts from the same and other lepidopteran species studied concurrently in this laboratory. Sterility culture tests were negative for mycoplasmas. The present fiveH. zea lines were the first insect cell lines to replicate polyhedra from a unicapsid multiple embedded nuclear polyhedrosis virus (Baculovirus Group A), in this case the homologous virus obtained from larvae ofH. zea.     

AcMNPV in permissive, semipermissive, and nonpermissive cell lines from arthropoda

Summary Insect cell lines from Arthropoda represented by Lepidoptera, Coleoptera, Diptera, and Homoptera were evaluated for their ability to support replication of AcMNPV. In addition, some of the cell lines that were refractive to AcMNPV were tested with AcMNPV hsp70 Red, a recombinant carrying the red fluorescent protein (RFP) gene, for their ability to express this protein after inoculation. Of the 10 lepidopteran cell lines tested, only three cell lines from Helicoverpa zea (BCIRL-HZ-AM1), Lymantria dispar (IPLB-LD 65), and Cydia pomonella (CP-169) failed to support detectable viral replication as measured by tissue culture infectious dose 50 (TCID₅₀) assay. Heliothis virescens (BCIRL-HV-AM1) produced the highest viral titer of 2.3±0.1×10⁷ TCID₅₀/ml followed by Heliothis subflexa (BCIRL-HS-AM1) at 4.7±0.1×10⁶ TCID₅₀/ml and Spodoptera frugiperda (IPLB-SF21) at 4.1±0.1×10⁶ TCID₅₀/ml. None of the coleopteran, dipteran, or homopteran cell lines supported AcMNPV replication. However, when studies were performed using AcMNPV hsp70 Red, the dipteran cell lines Aedes aegypti (ATC-10) and Drosophila melanogaster (line 2), both expressed the RFP as well as the refractive lepidopteran cell lines from H. zea and L. dispar. No RFP expression was observed in any of the coleopteran or homopteran cell lines. Cell lines refractive to AcMNPV did not appear to be adversely affected by the virus, as judged by their ability to multiply, nor was there any indication of induced apoptosis, as assessed by deoxyribonucleic acid fragmentation profiles or cell blebbing or both. Disclaimer: Mention of trade names or commercial product in the publication is solely for the purpose of providing specific information and does not imply recommendation or endorsement by the U. S. Department of Agriculture. All programs and services of the U. S. Department of Agriculture are offered on a nondiseriminatory basis without regard to race, color, national origin, religion, sex, age marital status, or handicap.     

Selection for resistance to a nucleopolyhedrosis virus in laboratory populations of the cotton bollworm, Heliothis zea

Resistance to a nucleopolyhedrosis virus (Baculovirus heliothis) did not develop in laboratory populations of the cotton bollworm, Heliothis zea. A selection pressure of LD₅₀ to 70 was maintained throughout 20 to 25 generations of selection. No significant changes in LD₅₀, slope, or intercept of dose-mortality lines were detected. Laboratory populations under selection were as susceptible to the virus as nonselected or wild populations of H. zea. The resistance ratio (LD₅₀ of selected generation/initial generation) ranged from 0.5 to 1.2.     

Susceptibility of Helicoverpa zea and Heliothis virescens (Lepidoptera: Noctuidae) to Vip3A insecticidal protein expressed in VipCot™ cotton

Susceptibility of laboratory and field colonies of Helicoverpa zea (Boddie) and Heliothis virescens F. to Vip3A insecticidal protein was studied in diet incorporation and diet overlay assays from 2004 to 2008. Responses of field populations were compared to paired responses of University of Arkansas laboratory susceptible H. zea (LabZA) and H. virescens (LabVR) colonies. After 7 d of exposure, observations were made on number of dead larvae (M) and the number of larvae alive but remaining as first instars (L1). Regression estimates using M (LC₅₀) and M plus L1 (MIC₅₀) data were developed for laboratory and field populations. Susceptibility of laboratory and field populations exposed to Vip3A varied among different batches of protein used over the study period. Within the same batch of Vip3A protein, susceptibilities of laboratory colonies of both species (LabZA and LabVR) were similar. Field colonies were significantly more susceptible to Vip3A than the respective reference colonies of both species. Within field populations, susceptibility to Vip3A varied up to 75-fold in H. zea and 132-fold in H. virescens in LC₅₀ estimates. Variabilities in MIC₅₀s were up to 59- and 11-fold for H. zea and H. virescens, respectively.     

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.     

Epizootics of Entomophthora aulicae in lepidopterous pests of sorghum

Entomophthora aulicae caused 48–100% mortality in Heliothis zea larvae collected from sorghum August 24–September 6, 1978, in Tift County, Georgia. The same fungus also caused 74 and 95% mortality in Celama sorghiella larvae and 19 and 40% mortality in Spodoptera frugiperda larvae collected from sorghum August 30 and September 6 in the same area. Only 2 of 94 H. virescens larvae collected from a nearby patch of pigeon peas were killed by the fungus. This is the first report of epizootics caused by E. aulicae in pests of field crops in the southeastern United States.