Histopathological effects of Bacillus thuringiensis on the midgut of tobacco hornworm larvae (Manduca sexta): Low doses compared with fasting

The cytology and ultrastructure of the midgut cells of Manduca sexta larvae are described for untreated controls, larvae which fed on a spore preparation of Bacillus thuringiensis, and larvae which were fasted for either 24 or 48 hr. New observations on the ultrastructure of midgut cells in Manduca larvae included the finding of specialized Golgi vesicles in anteriormost columnar cells and of regular arrays of expanded rough endoplasmic reticulum in goblet cells of the posterior midgut region. The present observations reveal that the columnar cells of the midgut responded cytologically in the same way to fasting as they did to exposure to the toxic spores of B. thuringiensis. The goblet cells, however, appeared unaffected by fasting but became swollen in response to feeding of B. thuringiensis spore preparation.     

Hemolymph responses in Heliothis zea to inoculation with Bacillus thuringiensis or Micrococcus lysodeikticus

Direct injection into the hemolymph of Heliothis zea of either an entomopathogen (Bacillus thuringiensis subsp. kurstaki) or a nonpathogen (Micrococcus lysodeikticus) is followed by a rapid phagocytosis and extensive removal of the organisms within 2 hr. The bacteria that survive this initial clearance initiate a new round of growth that is clearly evident 6–8 hr after injection. When the infecting organism is M. lysodeikticus, a second period of clearance occurs 8–12 hr after injection and nearly complete removal (many by lysis) is evident by the 12th hr. Larvae usually survive infection with this organism. When B. thuringiensis is the infecting organism, 60–80% of the phagocytized bacteria are lysed, however, the second wave of clearance seen with M. lysodeikticus does not occur; instead, the bacteria multiply extensively and death of the larvae results 12–16 hr after injection. This death does not appear to be caused either by crystalline protein or by the β-exotoxin. Analysis of hemolymph proteins using one-dimensional polyacrylamide gel electrophoresis indicated that although some quantitative changes were observed in some experiments, in the faster moving proteins when the infecting agent was B. thuringiensis, they were not consistent enough to support the idea that hemolymph proteins were either synthesized or used up during the time larvae were responding to the infectious agent. Dramatic changes were evident when the larvae were near death. No changes were ever observed when M. lysodeikticus was used as the infecting organism. A rapid response to infection using free spores of B. thuringiensis (sickness within 2–4 hr followed by death at 6–8 hr) may indicate that the spore germinating process is accompanied by release of a highly toxic material.     

Recovery of Bacillus thuringiensis and other bacteria from larvae of Spodoptera littoralis previously fed B. thuringiensis-treated leaves

Exposure of a spore-crystal suspension of Bacillus thuringiensis to UV irradiation for (200 lx) 8.5 min killed most of the spores ($\text{P}\text{P}{}_0\text{= 2.6 × 10}{}^{\mathrm{?4}}$), while the insecticidal activity of the suspension to larvae of Spodoptera littoralis was only slightly affected. Numbers of colony-forming units (CFU) of B. thuringiensis recovered from larvae after ingestion of spores decreased with time as long as the larvae lived and several hours after larval death. Only 3–6 hr after larval death, the spores germinated and multiplied, reaching up to 100-fold after 24 hr. When UV-irradiated suspensions were used, numbers of CFU per larva were too scarce to be recovered from living larvae. However, 1.5 × 10⁶ CFU/larva were recovered 24 hr after death. It seems that the disruption of the gut epithelium by the endotoxin caused a change in the unfavorable conditions for endospore germination, thus providing the suitable ambient for germination and multiplication of B. thuringiensis. Numbers of other bacteria present per milligram of healthy larva increased with larval weight, predominantly Streptococcus sp. and Erwinia sp. In dead larvae, the increase of Erwinia sp. was higher than that of Streptococcus sp. Other bacterial species isolated were: Corynebacterium sp., Micrococcus sp., Serratia marcescens, and Bacillus sp.     

Larvicidal activity of Bacillus thuringiensis subsp. israelensis, serovar H14 in Aedes aegypti: Histopathological studies

Bacillus thuringiensis subsp. israelensis, serovar H14, when applied as a primary commercial powder, caused the rapid death of Aedes aegypti larvae. Mortality started 6 min after application of 4 μg/ml of the pathogen and reached a maximum 27 min later. When the LC₅₀ (10 ng/ml) was applied, mortality began after 37 min and reached a maximum 120 min later. Histopathological changes in B. thuringiensis israelensis-treated larvae could be observed only in the midgut and caeca. In B. thuringiensis israelensis-treated “dead larvae”, the epithelial layer is disorganized, most of the cells have disappeared and the peritrophic membrane is broken. The epithelium in the B. thuringiensis israelensis-treated “living larvae” still maintains its monolayer structure, but with marked cellular hypertrophy and vacuolized cytoplasm. Also, the “brush border” is thinner and disrupted. Based on the fact that mortality of A. aegypti is a quick process, and because the histopathological changes caused by B. thuringiensis israelensis are similar to those found in lepidopterous larvae treated with pure δ-endotoxin of other B. thuringiensis variants, it is suggested that larvicidal activity of B. thuringiensis israelensis in A. aegypti is due to its δ-endotoxin.     

Cytological lesions in the midgut of Tribolium confusum larvae exposed to gamma radiation

The major cytological lesions in Tribolium confusum after irradiation were displayed by the midgut epithelium. At 24 hr following exposure to 5.3 kR, the regenerative cells called nidi appeared numerous. They gradually disappeared with increases in dosage and time in accordance with Arndt-Schulze's Law. The columnar epithelial cells and their nuclei appeared swollen and vacuolated on the fifth and twelfth day following exposure to 5.3 kR. They appeared disorganized and shed into the lumen of the midgut on the twelfth and fifth day following 50- and 70-kR irradiation, respectively. The basement membrane and the muscularis appeared loose on the fifth and twelfth day following 70-kR irradiation. It was observed that once the catabolic activity, i.e., histolysis, was initiated in the midgut, it continued to accelerate with increasing dose and time. Thus, the late effects at low doses, 5.3 and 10 kR, appeared as immediate effects at high doses, 50 and 70 kR. The differentiated cells, i.e., columnar epithelial cells, appeared radioresistant as compared to undifferentiated cells, i.e., regenerative cells, which appeared radiosensitive in accordance with the principle of Bergonie and Tribondeau.     

Scanning electron microscopy of the disruption of tobacco hornworm, Manduca sexta, midgut by Bacillus thuringiensis endotoxin

The ingestion of Bacillus thuringiensis crystal endotoxin by Manduca sexta causes the destruction of both goblet and columnar cells of the midgut. One hour after ingestion, the microvilli show pathological effects. Nearly complete destruction of the goblet and columnar cells has taken place after 4 hr exposure to the toxin.     

Toxic effects of spore/crystal ratios of Bacillus thuringiensis on European corn borer larvae

Bioassays to determine LC₅₀ values of spores and crystals of four varieties of Bacillus thuringiensis grown on nutrient agar plates were carried out against neonate and 6-day-old European corn borer, Ostrinia nubilalis, larvae. The four bacterial varieties were equally toxic against the neonates, but only B. thuringiensis var. kenyae, var. galleriae, and var. kurstaki were toxic to 6-day-old larvae. B. thuringiensis var. tolworthi was inactive against 6-day-old larvae. Different ratios of pure spores and crystals of the bacteria also were tested against neonate and 6-day-old larvae. Pure spores are not pathogenic to neonates or 6-day-old larvae. Pure crystals were toxic to both ages of the larvae, but a combination of spores and crystals was necessary for maximum larval mortality.     

Interactions between Bacillus thuringiensis subsp. kurstaki HD-1 and midgut bacteria in larvae of gypsy moth and spruce budworm

We examined interaction between Bacillus thuringiensis subsp. kurstaki HD-1 (Foray 48B) and larval midgut bacteria in two lepidopteran hosts, Lymantria dispar and Choristoneura fumiferana. The pathogen multiplied in either moribund (C. fumiferana) or dead (L. dispar) larvae, regardless of the presence of midgut bacteria. Inoculation of L. dispar resulted in a pronounced proliferation of enteric bacteria, which did not contribute to larval death because B. thuringiensis was able to kill larvae in absence of midgut bacteria. Sterile, aureomycin- or ampicillin-treated larvae were killed in a dose-dependent manner but there was no mortality among larvae treated with the antibiotic cocktail used by [Broderick et al., 2006] and [Broderick et al., 2009]. These results do not support an obligate role of midgut bacteria in insecticidal activity of HD-1. The outcome of experiments on the role of midgut bacteria may be more dependent on which bacterial species are dominant at the time of experimentation than on host species per se. The L. dispar cohorts used in our study had a microflora, that was dominated by Enterococcus and Staphylococcus and lacked Enterobacter. Another factor that can confound experimental results is the disk-feeding method for inoculation, which biases mortality estimates towards the least susceptible portion of the test population.     

Effects of Fumidil B on the spore of Nosema apis and on lipids of the host cell as revealed by freeze-etching

The epithelial cells of the midgut of honey bees, Apis mellifera, infected with Nosema apis showed young and mature spores randomly distributed in the cytoplasm. In these cells, only mitochondria and protein granules were observed. After treating infected bees with Fumidil B, an ultrastructural alteration in the spore membrane, especially in the young spore, was observed. At the same time, lipid granules appeared in the cytoplasm, mostly around the spores. The number of protein granules also increased.     

Bacillus thuringiensis crystal toxin: Ultrastructural studies of its effect on silkworm midgut cells

Bacillus thuringiensis crystal toxin induced a cytoplasmic response in columnar cells within 1 min after ingestion although external symptoms were not exhibited by larvae until 15 min after ingestion. Microvilli became less consistently uniform in diameter; their organized internal microfilaments were disrupted and disappeared. The cisternae of rough endoplasmic reticulum were enlarged and denuded of ribosomes. By 5 min after ingestion, microvilli of some columnar cells disappeared entirely and gross ultrastructural changes were observed in other regions of the cells. Up to 5 min after ingestion there were few, if any, ultrastructural changes observed within goblet cells. Mitochondria in columnar cells were swollen but did not exhibit the condensed configuration reported by other workers. Both the buffer system used in the fixation medium and its osmolarity influenced the changes in the ultrastructure of midgut cells exposed to B. thuringiensis crystal toxin.     

Pathogenesis and midgut histopathology of Bacillus thuringiensis in Simulium vittatum (Diptera: Simuliidae)

The pathogenesis and midgut histopathology which resulted when larvae of the blackfly, Simulium vittatum, were exposed to Bacillus thuringiensis at various temperatures and periods of exposure were investigated. The onset of mortality was studied at 10°, 15°, 19°, and 24°C. For each 4–5°C increase in temperature above 15°C, the onset of mortality was shortened by 24 hr. Exposures as brief as 15 min to 10 ppm of a whole spore preparation resulted in an average mortality of 29% in late-instar larvae. Mortality increased sharply for exposures up to 3 hr, approaching a maximum of 80%.The gross signs of disease included cessation of feeding and tetany with brachytosis. The tissue most affected was the midgut epithelium in the regions of the gastric caeca and posterior stomach. The formation of cytoplasmic vacuoles followed by cell lysis and/or sloughing were very apparent in moribund larvae. Death resulted without bacteremia.     

Synergism between Bacillus thuringiensis Spores and Toxins against Resistant and Susceptible Diamondback Moths (Plutella xylostella)

We studied the effects of combinations of Bacillus thuringiensis spores and toxins on the mortality of diamondback moth (Plutella xylostella) larvae in leaf residue bioassays. Spores of B. thuringiensis subsp. kurstaki increased the toxicity of crystals of B. thuringiensis subsp. kurstaki to both resistant and susceptible larvae. For B. thuringiensis subsp. kurstaki, resistance ratios were 1,200 for a spore-crystal mixture and 56,000 for crystals without spores. Treatment of a spore-crystal formulation of B. thuringiensis subsp. kurstaki with the antibiotic streptomycin to inhibit spore germination reduced toxicity to resistant larvae but not to susceptible larvae. In contrast, analogous experiments with B. thuringiensis subsp. aizawai revealed no significant effects of adding spores to crystals or of treating a spore-crystal formulation with streptomycin. Synergism occurred between Cry2A and B. thuringiensis subsp. kurstaki spores against susceptible larvae and between Cry1C and B. thuringiensis subsp. aizawai spores against resistant and susceptible larvae. The results show that B. thuringiensis toxins combined with spores can be toxic even though the toxins and spores have little or no independent toxicity. Results reported here and previously suggest that, for diamondback moth larvae, the extent of synergism between spores and toxins of B. thuringiensis depends on the strain of insect, the type of spore, the set of toxins, the presence of other materials such as formulation ingredients, and the concentrations of spores and toxins.     

The control of Monomorium pharaonis (Hymenoptera: Formicidae) with Bacillus thuringiensis

In this study, the effect of different preparations made from Bacillus thuringiensis var. thuringiensis (strains: CCEB 555 and CCEB 058) on ants, Monomorium pharaonis, under laboratory conditions is reported. The different preparations tested consisted of (1) a liquid culture of the strain B. thuringiensis CCEB 555 (containing spores and exotoxin), (2) the supernatant of the culture broth of strain CCEB 555 (containing exotoxin), and (3) the biological preparation “Bathurin” prepared from the strain B. thuringiensis CCEB 058 (containing spores and inclusions, without exotoxin). The preparations were used either pure or in alternation with borax, i.e., 1 wk borax, 3 wk the respective preparation for several months. All preparations were found to be toxic to M. pharaonis and their effect was characterized by a slow extinction of the ant colony. Administration of “Bathurin” (1.3%) yielded a 100% mortality after 20 wk. Using a liquid culture of B. thuringiensis var. thuringiensis, 100% mortality was recorded after 21 wk, a period of time which did not differ from that obtained with the supernatant of the culture containing exotoxin. The alternation with borax was found to accelerate ant mortality by 9–10 wk after administration. In all experiments, the worker ants died first, the queen ants surviving them by 1–3 wk.In experiments employing worker ants only, a 100 and 98% mortality, respectively, occurred within 3 wk after administration of a liquid culture of B. thuringiensis and “Bathurin” supplemented with borax.     

Pathogenesis of Bacillus sphaericus strain SSII-1 infections in Culex pipiens quinquefasciatus ( = C. pipiens fatigans) larvae

Numbers of viable bacteria in second instar Culex pipiens quinquefasciatus larvae were determined following ingestion of pathogenic strain SSII-1 and nonpathogenic Bacillus sphaericus. Numbers of nonpathogenic B. sphaericus recovered from larvae declined rapidly after cessation of feeding, as did numbers of pathogenic SSII-1 cells fed at LD₂₀ dosage. When pathogenic cells were fed at LD₇₀ dosage, the number of B. sphaericus in larvae increased following initial decline. When chloroformtreated SSII-1 cultures, in which all bacteria except spores were dead, were fed at LD₁₀ and LD₉₈ dosages, no viable B. sphaericus were recovered from larvae. In all SSII-1 treatments, other bacterial flora multiplied rapidly in larvae following onset of mortality; the role of this multiplication in the pathogenesis was not determined. It is proposed that toxic material is released when SSII-1 cells are digested and that multiplication of B. sphaericus in the larval gut is not essential in the pathogenesis. There appears to be no difference in the pathogenesis when differing numbers of B. sphaericus. i.e., LD_10–20 or LD_70–98 dosages, are ingested. Possible nature of the toxic material is discussed.     

Susceptibility of the spruce budworm, Choristoneura fumiferana, and the white-marked tussock moth, Orgyia leucostigmata, to Bacillus thuringiensis: Chemical insecticide combinations

Bacillus thuringiensis mixed with the organophosphate insecticides, fenitrothion (Sumithion), Gardona^®, and Orthene^®, or the synthetic pyrethroid, SBP 1382, was incorporated into synthetic diet and fed larvae of the spruce budworm, Choristoneura fumiferana, and the white-marked tussock moth, Orgyia leucostigma. Mortality was highest when larvae were fed combinations of low concentrations of the insecticides and low to moderate concentrations of the pathogen. The data indicated that applications of a B. thuringiensis dosage expected to produce about 45% mortality of third and fourth instar larvae of the spruce budworm combined with a dosage of fenitrothion causing about 40% mortality or a dosage of Orthene causing from 5 to 25% mortality should result in low budworm survival. With a B. thuringiensis dosage causing 20–60% mortality combined with a fenitrothion dosage causing 15–50% mortality or a sublethal dosage of Gardona, a low survival rate of young white-marked tussock moth larvae may be expected.     

Effect of exposure to soil on potency and spore viability of Bacillus thuringiensis

Ten-gram samples of a clay loam soil were inoculated with Bacillus thuringiensis var. galleriae (H-serotype V) and held at 25°C. Periodically the spores and δ endotoxin protein crystals of B. thuringiensis were extracted from soil samples. Numbers of viable spores were estimated by plate counts and pathogenicity determined by bioassay with larvae of Galleria mellonella. During 135 days, the number of viable spores fell slowly to 24% of the initial numbers, while pathogenicity fell rapidly to <1%, which suggests that the crystals were degraded far more rapidly than spores. Natural soil bacteria increased in numbers during the same period.     

A pathogenic strain of Bacillus cereus isolated from the cigarette beetle, Lasioderma serricorne

A noncrystalliferous, aerobic, spore-forming bacterium (accession number DD-1019) isolated from the cigarette beetle, Lasioderma serricorne, was identified as a strain of Bacillus cereus based on morphological, biochemical, and cultural similarities. Pathogenicity was established by exposing hatching larvae of the cigarette beetle to doses of inocula ranging from 1.17 to 600 × 10⁶ spores per gram of rearing medium. The LD₅₀ and the LD₉₀ were calculated to be 4.29 × 10⁶ and 371 × 10⁶ spores per gram of medium, respectively. The cigarette beetle was effectively controlled by both the DD-1019 strain of B. cereus and the CM1-1 strain (originally isolated from and pathogenic to codling moth, Laspeyresia pomonella) but proved quite refractory to Bacillus thuringiensis var. thuringiensis.     

Toxicity of Bacillus thuringiensis toward Aedes aegypti larvae.

Among six strains of Bacillus thuringiensis and five other species of Bacillus, only two strains of B. thuringiensis, strains HD-1 and BA-068, were toxic to Aedes aegypti larvae within 24 hr. The LC₅₀s were 5.6 × 10⁴ and 2.4 × 10⁵ spores/ml for strains HD-1 and BA-068, respectively. The toxic factor(s) was heat sensitive and γ ray resistant and preliminary evidences indicated that it was associated with the crystalline body of B. thuringiensis.     

Regeneration of midgut epithelial cell in the silkworm, Bombyx mori, infected with viruses

In the larvae of the silkworm, Bombyx mori, the regeneration of midgut cells infected with a cytoplasmic polyhedrosis virus (CPV), a flacherie virus (FV), and a small DNA virus (SDV) was studied. Large numbers of newly developed cells appeared in the CPV-infected part of the midgut epithelium just before larval molt, and along with their development, the CPV-infected old columnar cells were discharged into the midgut lumen during the molt. On the other hand, in the uninfected portion of the midgut only a few cells developed, and no columnar cells were discharged. Similarly, the marked replacement of midgut epithelial cells during larval molt was also observed in larvae infected with CPV + FV. In the larvae infected with CPV + SDV, the columnar cells lost their regenerative ability, and because of the exfoliation of infected columnar cells, the midgut epithelium consisted mainly of uninfected goblet cells at a late stage of infection. The degree of epithelial regeneration varied with the silkworm strain and the dosage of the virus.     

Possible role of hormones in the control of midgut amylolytic activity during adult development of Tenebrio molitor

Midgut amylolytic activity (MAA) increases spontaneously during adult development in isolated, unfed adults. Neck-ligation of adults applied at 0 to 1 hr and 18 to 20 hr after adult emergence exhibits a significant decrease in MAA 72 hr after treatment. MAA decrease was higher when 18 to 20 hr old adults were ligated than those 0 to 1 hr old. Injection of head extracts increases MAA considerably in young adults (0–6 hr) whereas in older ones (18–20 hr) the same dose of the extract does not change the activity of the enzyme examined. It may be supposed that amylase synthesis of the midgut epithelial cells in T. molitor adults is closely related to the cytodifferentiation of the midgut.