Ecology of Bacillus thuringiensis in storage moths

A disease-free stock of Plodia interpunctella was produced by a continuous rearing technique. In dense populations of this stock, 10⁴ or more spores of H serotype V Bacillus thuringiensis applied at one point on the surface of 200 g of food were required to cause epizootics, compared with 10⁷ or more when spread evenly over the surface. In infected populations, spores contaminated the surfaces of all stages of the insect. In diseased larval cadavers there were 5.6–42.2 × 10⁸ spores/g of dry insect (P. interpunctella, Ephestia cautella, Anagasta kuehniella, Ephestia elutella, and Galleria mellonella). Larvae did not cannibalize live larvae while food was present though they sometimes ate cadavers. This is the most potent means of natural spread of the disease. Occurring mainly in protected situations such as food stores, natural infections are usually light, but occasionally spectacular surface accumulations of dead larvae occur, possibly associated with stress, physiological condition of the larvae, serotype of the bacterium, or behavior pattern such as migration. Natural disease may curb infestations in debris, but it attacks too late to prevent excessive damage to stored food. A prophylactic, even admixture of 2 × 10⁹ spores/200 g of food is required for effective insect control.     

Some factors affecting spore replication of Nosema algerae (Microspora,Nosematidae) in Pieris brassicae (Lepidoptera)

The production of Nosema algerae spores was examined in Pieris brassicae. Spore replication in the insect host followed a logistic pattern of development. The factors studied which affected spore production and replication were dose level (5 × 10², 5 × 10³, and 5 × 10⁴ spores per insect), larval instar (fourth and fifth), and cool pretreatment of the insects at 20°C prior to inoculation compared with a constant temperature of 26°C. A three-way analysis showed the interactions between these factors. The logistic pattern of spore replication was used to explain the results.     

Infection of the corn earworm, Heliothis zea, with Nosema acridophagus and Nosema cuneatum from grasshoppers: Relative virulence and production of spores

Per os inoculations of 4- to 6-day-old larvae of the corn earworm, Heliothis zea, with suspensions containing 10⁶ spores of Nosema acridophagus or 10⁴, 10⁵, and 10⁶ spores of Nosema cuneatum retarded the growth and development of the larvae. Migratory grasshoppers, Melanoplus sanguinipes, inoculated with N. acridophagus produced fewer spores than similarly inoculated corn earworms, but spore production was similar in these insects when they were inoculated with N. cuneatum. Standard bioassay procedures showed that spores of both microsporidians were some-what more virulent when they were produced in corn earworms than when they were produced in grasshoppers. Spores of these microsporidians might be produced more efficiently in corn earworm larvae than in grasshoppers.     

Pathogenicity of entomopathogenic hyphomycetes, Paecilomyces fumoso-roseus and Nomuraea rileyi, to eggs of noctuids, Mamestra brassicae and Spodoptera littoralis

Bioassays were conducted to determine the susceptibility of egg masses of Mamestra brassicae and Spodoptera littoralis to different spore doses of Paecilomyces fumoso-roseus and Nomuraea rileyi at 20° and 25°C. P. fumoso-roseus was highly virulent against eggs, whereas N. rileyi provoked only a deferred mortality of larvae hatched from treated eggs. Nevertheless, larval mortality of S. littoralis caused by N. rileyi at 25°C was more effective after first-instar larval contamination than after egg mass treatment. The duration of the egg stage could explain differences of susceptibility between the two noctuids at 25°C. Scanning electron microscopical observations suggested two ways of contamination of newly hatched larvae. First, fungal germinations on the chorion surface suggested that newly hatched larvae might be infected by penetration of the egg integument before hatching. Second, conidia on the egg cuticle could be an entomopathogenic inoculum for newly emerging larvae which fed upon chorions. Results showed that pathogenicity of Hyphomycetes to noctuid eggs might be a promising area of investigation for biological control.     

The comparative susceptibilities of Pieris brassicae and P. rapae to a granulosis virus from P. brassicae

A comparison was made of the dosage-mortality responses of larvae of Pieris brassicae and P. rapae to infection by P. brassicae granulosis virus (GV). Bioassays with first, second, third, and fourth-instar larvae of both species revealed a marked difference in susceptibility between instars and between species. Median lethal dosages (LD₅₀s) for P. rapae larvae ranged from five capsules for the first instar to 662 capsules for the fourth instar. With P. brassicae, this range extended from 66 capsules to 2.3 × 10⁷ capsules. The time-mortality responses of the two species were similar when fed virus dosages equivalent to an LD₉₀. Median lethal times (LT₅₀s) ranged from 5 days for first-instar larvae to 7–8 days for fourth-instar larvae. A comparison between a long-established laboratory stock of P. brassicae and a stock recently acquired from the field showed no significant difference in their susceptibility to GV. The implications of the pronounced species differences in susceptibility to GV infection are discussed in relation to the potential field control of P. rapae and P. brassicae.     

Importance of spores,crystals, and δ-endotoxins in the pathogenicity of different varieties of Bacillus thuringiensis in Galleria mellonella and Pieris brassicae

Physical methods were used to produce spores containing impurities of 0.02–0.05% crystals and crystals containing impurities of 0.001–0.01% spores from cultures of Bacillus thuringiensis. In Galleria mellonella larvae, these preparations from varieties galleriae, aizawai, and wuhanensis were only moderately active compared to 1:1 mixtures of spores and crystals. Spores of an acrystalliferous aizawai mutant were inactive and did not contain a polypeptide of the same size as the potent M_r 138000 δ-endotoxin present in spores and crystals of all three wild-type strains. Thus, this polypeptide probably contributed to the moderate activity of wild-type spores. Spore impurities in the crystal preparation were killed by γ irradiation without harming the crystals. The crystals without live spores were virtually inactive (LC₅₀s, ca. 10¹⁰ crystals/g insect food). Addition of 10³ spores to 10⁸ crystals/g food (0.001% spores) increased the mortality of larvae from 0 to 36%, and addition of 10⁴ spores (0.01% spores) killed 64% larvae. Thus, the addition of low levels of spores increased the potency of crystals in G. mellonella from virtually zero to moderate levels, suggesting that the live spore impurities in the crystal preparations were responsible for the observed moderate potency of crystals before γ irradiation, a view supported by a reduction of potency of crystal preparations following admixture of streptomycin to the insect food. In contrast to the results with G. mellonella, crystals were ca. 30 times as active as spores in Pieris brassicae larvae. Many authors have found crystals purified by physical methods to be highly active in a range of lepidopterous hosts. The present work indicates that the role of the spore impurities in these species may need further investigation. Absence of live spores of B. thuringiensis may impair the control of some insect species feeding on spore-free products and on microorganisms or plants into which endotoxins have been introduced by genetic manipulation.     

Specificity of Bacillus thuringiensis Delta-Endotoxin

The insecticidal activity of the delta-endotoxins of 14 Bacillus thuringiensis strains belonging to 12 subspecies was determined against Pieris brassicae, Heliothis virescens, and Spodoptera littoralis. Larvae of P. brassicae were highly susceptible to purified crystals of strains of B. thuringiensis subsp. thuringiensis and B. thuringiensis subsp. morrisoni, whereas H. virescens responded best to B. thuringiensis subsp. kenyae and B. thuringiensis subsp. kurstaki. The crystals of the B. thuringiensis subsp. entomocidus strain were the most potent against S. littoralis. It was shown that the solubility of the crystals within the gut of the three insect species is a first important step in the mode of action. Predissolution of the crystals especially enhanced the insecticidal activity against H. virescens. When in vitro-activated toxins were applied, the relative potency range varied greatly from one insect species to another. It can be concluded that at least three factors influence the potency of B. thuringiensis delta-endotoxins: the strain-related origin of the toxin, the degree of solubility of the crystals in the gut juice, and the intrinsic susceptibility of the insect to the toxin.     

Persistence of spores of Pleistophora schubergi (Cnidospora: Microsporida) in the field,and their application in microbial control

Spores of Pleistophora schubergi, when applied to oak trees in the field at 2 × 10⁸ spores/ml with a uv protectant, “Shade,” infected 88% of Anisota senatoria larvae at 4 days after spray application. Spores without the uv protectant infected only 10% of the larvae at 4 days after application. When the spores were applied at the rate of 2 × 10⁸ and 2 × 10⁷ spores/ml in the field, 96 and 72% of the A. senatoria larvae and 100 and 100% of the Symmerista canicosta larvae were infected 14 days after spray application.     

Multiplex PCR assay for the simultaneous detection and differentiation of Olpidium bornovanus, O. brassicae, and O. virulentus

A multiplex PCR method has been developed to detect, differentiate, and confirm the morphological identification of three root infecting Olpidium spp.: O. bornovanus, O. brassicae, and O. virulentus. Of the 132 root samples examined, 101 samples were infected by Olpidium spp.. Based on the morphology of resting spores, the presence of O. bornovanus was confirmed in 20.5 % of the samples, whereas species identity could not be determined for the remaining samples because they failed to reproduce sexually. With multiplex PCR, it was possible to determine the Olpidium identity of all the infected samples, even when resting spores were not formed. This method was also effective for detecting Olpidium spp. in water samples. In addition, the specificity and sensitivity of multiplex PCR were evaluated. The multiplex PCR method was validated with samples of 9 different crops from 11 countries of America, Europe, and Africa.     

The use of a microinjection procedure for large-scale production of the microsporidian Nosema eurytremae in Pieris brassicae

Nosema eurytremae, a microsporidian parasite of Malaysian trematodes, was injected at the rate of 1 × 10⁴ spores/larva into Pieris brassicae. The larvae, which subsequently pupated, were incubated at 25 to 26°C and on harvesting 19 days later yielded an average of 6 × 10⁸ spores/pupa. This was equivalent to 60,000 times the initial dose. Purity of filtered, washed spore suspensions ranged from 80 to 99% with up to 20% host debris.     

The preservation of infective spores of Octosporea muscaedomesticae in Phormia regina,of Nosema algerae in Anopheles stephensi,and of Nosema whitei in Tribolium castaneum by lyophilization

Infective spores of three species of microsporidia were subjected to the lyophilization process by employing varying media as cryoprotectants. The infectivity of the lyophilized spores was then tested against a standard fresh spore preparation in the appropriate host insect. Spores of Octosporea muscaedomesticae served as an experimental model and were rendered noninfective in host Phormia regina (Calliphoridae: Diptera) after lyophilization with the following cryoprotective agents: skim milk (12%), ascorbic acid (5%) combined with thiourea (5%), glycerol (10%), mesoinositol (5%), and equine serum. Spores of O. muscaedomesticae lyophilized or vacuum-dried in 50% sucrose as well as in the hosts' tissues remained highly infective for as long as 2 years at a dose of 10⁶ spores/fly and a trial length of 12 days. At a dose of 5 × 10⁴ spores/fly there was a slight decrease in infectivity of the spores which had been lyophilized in the host's abdomen after a 2-year storage period compared with that of fresh, nonlyophilized spores. Naked spores of Nosema algerae suspended in 50% sucrose and lyophilized produced infection in 50% of the host population of Anopheles stephensi (Culicidae: Diptera) compared with 70% infection produced by fresh non-lyophilized spores. Spores of Nosema whitei lyophilized within its host larva Tribolium castaneum (Tenebrionidae: Coleoptera) remained 100% infective at a dose of 5 × 10⁵ spores/gram diet. It is concluded that an aqueous solution of 50% sucrose and/or the host's tissues are excellent protectants for the cryogenic or vacuum-drying process of the above-named spores, and their protective function may apply also to other microsporidian species.     

Interactions of Insecticidal Toxin Gene Products from Xenorhabdus nematophilus PMFI296

Four genes on a genomic fragment from Xenorhabdus nematophilus PMFI296 were shown to be involved in insecticidal activity towards three commercially important insect species. Each gene was expressed individually and in combinations in Escherichia coli, and the insecticidal activity of the lysates was determined. The combined four genes (xptA1, xptA2, xptB1, and xptC1), in E. coli, showed activity towards Pieris brassicae, Pieris rapae, and Heliothis virescens. The genes xptA1, xptB1, and xptC1 were involved in expressing activity towards P. rapae and P. brassicae, while the genes xptA2, xptB1, and xptC1 were needed for activity towards H. virescens. When each of these three genes was expressed individually in E. coli and the cell lysates were used in insect assays or mixed and then used, insecticidal activity was detected at a very low level. If the genes xptB1 and xptC1 were expressed in the same E. coli cell and this cell lysate was mixed with cells expressing xptA1, activity was restored to P. rapae and P. brassicae. Similarly mixing XptB1/C1 lysate with XptA2 lysate restored activity towards H. virescens. Individual gene disruptions in X. nematophilus PMFI296 reduced activity to insects; this activity was restored by complementation with cells expressing either xptA1 or xptA2 for their respective disruptions or E. coli expressing both xptB1 and xptC1 for individual disruptions of either of these genes. The genes xptA2, xptC1, and xptB1 were expressed as an operon in PMFI296 and inactivation of xptA2 or xptC1 resulted in silencing of downstream gene(s), while xptA1 was expressed as a single gene. Therefore, the two three gene product combinations interact with each other to produce good insecticidal activity.     

The establishment of cell lines from imaginal wing discs of Spodoptera frugiperda and Plodia interpunctella

Continuous cell cultures were established from imaginal wing discs of 2 Lepidoptera, Spodoptera frugiperda and Plodia interpunctella. The S. frugiperda line (IAL-SFD1) grows as multicellular vesicles and responds morphologically and biochemically to the insect hormone, 20-hydroxyecdysone. In contrast, the P. interpunctella cells (IAL-PID2) grow as attached monolayers of small spindle-shaped cells and do not appear to have specific responses to 20-hydroxyecdysone, although growth rates are slowed in these cells upon exposure to the hormone.     

Tissue specificities of Thelohania duorara,Agmasoma penaei, and Pleistophora sp., microsporidian parasites of pink shrimp, Penaeus duorarum

The pathology of pink shrimp, Penaeus duorarum, infected with the microsporidians Thelohania duorara, Agmasoma penaei, and Pleistophora sp. was described. Infections of T. duorara were widespread in most tissues; spores were located throughout the hemocoel, at the periphery of all striated muscle bundles, and in muscle and connective tissue surrounding the digestive tract. A. penaei infections invaded only dorsal abdominal muscles, muscles adjacent to blood vessels, and ovaries. Infected muscles and ovaries were eventually completely destroyed. Masses of A. penaei spores were often engulfed by hemocytes. Pleistophora sp. infected the interior of all striated muscles. Infected muscles were never completely destroyed but were often atrophied.     

Effects of temperature and dosage on Vairimorpha sp. 696 spore morphometrics,spore yield,and tissue specificity in Heliothis virescens

The effects of temperature and dosage on a new microsporidian species, Vairimorpha sp. 696, were examined in H. virescens. The pathogen was evaluated for tissue specificity, spore size, cumulative percentage mortality, and spore production. All tissues examined bore infection at 32°C. Spore length was significantly longer at 19°C (5.9 μm) than at 32°C (4.7 μm). Spore widths at these two temperatures did not differ significantly. Octospores were not found at either temperature at 8 or 12 days postinoculation. One hundred percent mortality was attained in all dosages administered, but the initial rate of mortaily was more rapid in the higher dosages. Finally, spore yield was greater in larvae administered lower dosages. Maximum spore yield at 27°C was 4.87 × 10⁹ spores/larva.     

Parasitism of Helicotylenchus lobus by Pasteuria penetrans in Naturally Infested Soil

The population density of Helicotylenchus lobus and the percentage of the population with spores of Pasteuria penetrans were determined for 10 monthly intervals in naturally infested turf grass soil at Riverside, California. The percentage of nematodes with attached spores ranged from 40% to 67%. No relationship was found between nematode density and the percentage of nematodes with spores. The mean and maximum numbers of spores adhering per nematode with at least one spore ranged from 2 to 8 and 7 to 66, respectively. The mean number of spores per nematode (based on total number of H. lobus) was correlated with the percentage of nematodes with spores. Spores adhered to both adult and juvenile H. lobus. Between 9% and 32% of the nematodes with spores had been penetrated and infected by the bacterium. Many infected nematodes were dead, but mature spores were also observed within living adult and juvenile H. lobus that exhibited no apparent reduction in viability and motility. Spore and central endospore diameters of this P. penetrans isolate were larger than those reported for the type isolate from Meloidogyne incognita, but transmission and scanning electron microscopy did not reveal significant morphological differences between the two isolates. Spores of the isolate associated with H. lobus did not adhere to juveniles of M. incognita.     

Cloning and characterization of the Cry1Ac-binding alkaline phosphatase (HvALP) from Heliothis virescens

Membrane-bound alkaline phosphatases (mALPs, EC 3.1.3.1) in the insect midgut have been reported as functional receptors for Cry toxins from the bacterium Bacillus thuringiensis. We previously reported the identification of HvALP in the midgut of Heliothis virescens larvae as a Cry1Ac-binding protein that is down-regulated in Cry1Ac-resistant insects. To further characterize HvALP, we localized mALP protein to foregut and midgut tissues using anti-mALP serum and then cloned five mALPs from H. virescens larval midgut. All five clones displayed high levels of sequence identity (above 90%), suggesting that they may represent allelic variants, and grouped with other lepidopteran mALPs in sequence alignments. All these cloned ALPs were predicted to contain a glycosylphosphatidylinositol (GPI) anchor and were named HvmALP1–5. We expressed two of the most diverse HvmALPs in a heterologous system to test binding of Cry1Ac and recognition by HvALP cross-reacting antiserum. Our data highlight the importance of glycosylation for Cry1Ac binding to HvALP and suggest that, depending on glycosylation, all the identified HvmALPs may be synonymous with HvALP, the Cry1Ac-binding phosphatase identified in H. virescens midgut epithelium.     

A new microsporidian species, Vairimorpha ocinarae n. sp., isolated from Ocinara lida Moore (Lepidoptera: Bombycidae) in Taiwan

A new microsporidium was isolated from Ocinara lida Moore (Lepidoptera: Bombycidae), a pest of Ficus microcarpa L. f. in Taiwan. The microsporidium produces systemic infections in O. lida larvae; the midgut epithelium, Malpighian tubules, and midgut muscle tissues were the target tissues for this isolate, and atrophied fat body tissues were found in heavily infected larvae. Two types of spores were observed, diplokaroytic spores with 11-13 coils of polar tube, and monokaryotic spores with 12 coils of the polar tube that developed within a sporophorous vesicle to form octospores. Electron-dense granules were abundant in the episporontal space of the sporophorous vesicles, and were similar to those of Vairimorpha invictae isolated from Solenopsis invicta, but different from granules or inclusions of other Vairimorpha species. Based on the phylogenetic analysis of the small subunit ribosomal DNA sequence, this isolate is unique within the Vairimorpha complex. Morphological and genetic characters showed this isolate to be a new species. It is placed in the genus Vairimorpha and is described as Vairimorpha ocinarae n. sp.     

Effects of zinc on programmed cell death of Musca domestica and Drosophila melanogaster blood cells

Programmed cell death (PCD) and phagocytotic activity of immune cells play a pivotal role in insect development. We examined the influence of Zn²⁺, an important element to fundamental biological processes, on phagocytosis and apoptosis of hemocytes in two fly species: Musca domestica and Drosophila melanogaster. Hemocytes were isolated from the third instar larvae of both species and treated for 3 h with zinc chloride solutions, containing 0.35 mM or 1.7 mM of Zn²⁺, and untreated as control. Phagocytotic activity of hemocytes was examined by flow cytometry after adding latex fluorescent beads to the medium, while apoptosis was evaluated by application of annexinV-FITC and pan-caspase-FITC inhibitor. Mitochondrial viability was determined by measuring resazurin absorbancy in the cell medium. The obtained results showed that Zn²⁺ increases phagocytosis and affects PCD of both species hemocytes but each in a different way. Zinc decreases fraction of annexin-positive hemocytes in M. domestica but increases it in D. melanogaster. The pan-caspase analysis revealed low and high activity of caspases in hemocytes of M. domestica and D. melanogaster, respectively. Zn²⁺ also decreased the viability of hemocyte mitochondria but only in D. melanogaster. It suggests that flies use different pathways of PCD, or that Zn plays a different role in this process in M. domestica than in D. melanogaster.