Phyllis A. W. Martin

Regeneration of cultured midgut cells after exposure to sublethal doses of toxin from two strains of Bacillus thuringiensis.

Toxin from two strains of Bacillus thuringiensis (Bt), AA 1-9 and HD-73, caused dose-dependent destruction of cultured midgut cells from Heliothis virescens larvae. HD-73 toxin was more effective although, at the doses used, not all cells were killed. After 2 days of exposure to 0.8 pg/µl AA 1-9 or 0.06 pg/µl HD-73, columnar and goblet cell numbers declined to ca 20% of controls. In contrast, stem and differentiating cells increased to 140-200% of controls. The dynamic of depletion and replacement depended on toxin type and concentration. Two days after toxin was washed out, ratios of cell types returned to approximate control levels, suggesting rapid population corrections in vitro. Regulation of the ratio of cell types in each population, and the rate of proliferation and differentiation of stem cells was induced by the cultured midgut cells themselves. Controls and cells treated with toxin from Bt strain AA 1-9 were stained using a polyclonal antibody to Lepidopteran midgut differentiation factor 1 (MDF1). With Bt toxin, 1.5 times more cells stained for MDF1, suggesting increased synthesis of this differentiation factor during increased stem cell differentiation. The response of cultured midgut cells to Bt toxin injury is similar to injured vertebrate tissues dependent on stem cells for replacement and healing.

Apoptosis in cultured midgut cells from Heliothis virescens larvae exposed to various conditions.

We exposed midgut cells from primary cultures of Heliothis virescens larvae to cell-free previously used medium, the Vaughn X and HyQ SFtrade mark media used for serum-free culture of insect cell lines which do not support H. virescens midgut cells, and to toxin from Bacillus thuringiensis. A statistically significant increase in the percent of dying cells was counted in cell populations in Vaughn X medium. Use of the TUNEL method to detect apoptosis indicated a low rate (7.2%) of apoptosis in control cultures grown in Heliothis medium, an increase to approximately 20% in previously used and HyQ SFtrade mark media, and to approximately 45% of cells remaining after exposure to and initial destruction by B. thuringiensis toxin. Apoptotic nuclei were predominant (approximately 6%) in mature columnar cells in control cultures. Approximately 1% of goblet, stem, and differentiating cells were apoptotic. However, apoptosis rose to 12% in stem and differentiating cells exposed to used and unsuitable medium. B. thuringiensis exposure to toxin for 2-3 days resulted in visible membrane damage and necrosis, causing the death of 84% of the cells as measured by both the TUNEL and Annexin methods. Some of the columnar cells and stem and differentiating cells that remained also contained apoptotic nuclei. Stem and differentiating cells normally replace dying mature cells in the midgut. Thus, exposure of cultures of H. virescens midgut cells to adverse environments such as unsuitable or poisonous media appeared to induce down-regulation of the cell populations by apoptosis.

Two New Bacterial Pathogens of Colorado Potato Beetle (Coleoptera: Chrysomelidae)

Abstract Other than Bacillus thuringiensis Berliner, few bacteria are lethal to the Colorado potato beetle (Leptinotarsa decemlineata [Say]), a major pest of potatoes and eggplant. Expanded use of biologicals for the control of Colorado potato beetle will improve resistance management, reduce pesticide use, and produce novel compounds for potential use in transgenic plants. Using freeze-dried, rehydrated artificial diet in pellet form to screen bacteria lethal to other insects, we determined that strains of Photorhabdus luminescens killed Colorado potato beetle larvae. The LC50 for second instar larvae of strain HM5-1 was 6.4 ± 1.87 × 107 cells per diet pellet. In an attempt to find additional naturally occurring P. luminescens strains toxic to Colorado potato beetle larvae, we recovered, from soil, bacteria that produced a purple pigment. This bacterial strain, identified as Chromobacterium sp. by 16S ribosomal DNA sequencing, was also toxic to Colorado potato beetle larvae within 3 d. The LC50 for second instar larvae for these bacteria was 2.0 ± 0.79 × 108 cells per diet pellet, while the LC50 was approximately 1 log lower for third instar larvae. P. luminescens appeared to kill by means of a protein toxin that may be similar to the described lepidopteran protein toxins. Based on the heat and acid stability, the toxin or toxins that Chromobacterium sp. produces, while not fully characterized, do not appear to be typical proteins. In both bacteria, the toxins are made after exponential growth ceases.

CONTROL OF LIFE, DEATH, AND DIFFERENTIATION IN CULTURED MIDGUT CELLS OF THE LEPIDOPTERAN, HELIOTHIS VIRESCENS'

SummaryDifferentiated cells in the insect midgut depend on stem cells for renewal. We have immunologically identified Integrin β1, a promotor of cell-cell adhesion that also induces signals mediating proliferation, differentiation, and apoptosis on the surfaces of culturedHeliothis virescens midgut cells; clusters of immunostained integrin β1-like material, indicative of activated integrin, were detected on aggregating midgut columnar cells. Growth factor-like peptides (midgut differentiation factors 1 and 2 [MDF1 and MDF2]), isolated from conditioned medium containingManduca sexta midgut cells, may be representative of endogenous midgut signaling molecules. Exposing the cultured midgut cells toBacillus thuringiensis (Bt) toxin caused large numbers of mature differentiated cells to die, but the massive cell death simultaneously induced a 150–200% increase in the numbers of midgut stem and differentiating cells. However, after the toxin was washed out, the proportions of cell types returned to near-control levels within 2 d, indicating endogenous control of cell-population dynamics. MDF1 was detected immunologically in larger numbers of Bt-treated columnar cells than controls, confirming its role in inducing the differentiation of rapidly produced stem cells. However, other insect midgut factors regulating increased proliferation, differentiation, as well as inhibition of proliferation and adjustment of the ratio of cell types, remain to be discovered.

The Occurrence of Photorhabdus-Like Toxin Complexes in Bacillus thuringiensis

Recently, genomic sequencing of a Bacillus thuringiensis (Bt) isolate from our collection revealed the presence of an apparent operon encoding an insecticidal toxin complex (Tca) similar to that first described from the entomopathogen Photorhabdus luminescens. To determine whether these genes are widespread among Bt strains, we screened isolates from the collection for the presence of tccC, one of the genes needed for the expression of fully functional toxin complexes. Among 81 isolates chosen to represent commonly encountered biochemical phenotypes, 17 were found to possess a tccC. Phylogenetic analysis of the 81 isolates by multilocus sequence typing revealed that all the isolates possessing a tccC gene were restricted to two sequence types related to Bt varieties morrisoni, tenebrionis, israelensis and toumanoffi. Sequencing of the ∼17 kb tca operon from two isolates representing each of the two sequence types revealed >99% sequence identity. Optical mapping of DNA from Bt isolates representing each of the sequence types revealed nearly identical plasmids of ca. 333 and 338 kbp, respectively. Selected isolates were found to be toxic to gypsy moth larvae, but were not as effective as a commercial strain of Bt kurstaki. Some isolates were found to inhibit growth of Colorado potato beetle. Custom Taqman® relative quantitative real-time PCR assays for Tc-encoding Bt revealed both tcaA and tcaB genes were expressed within infected gypsy moth larvae.

Phylogenetic Distribution of Phenotypic Traits in Bacillus thuringiensis Determined by Multilocus Sequence Analysis

Diverse isolates from a world-wide collection of Bacillus thuringiensis were classified based on phenotypic profiles resulting from six biochemical tests; production of amylase (T), lecithinase (L), urease (U), acid from sucrose (S) and salicin (A), and the hydrolysis of esculin (E). Eighty two isolates representing the 15 most common phenotypic profiles were subjected to phylogenetic analysis by multilocus sequence typing; these were found to be distributed among 19 sequence types, 8 of which were novel. Approximately 70% of the isolates belonged to sequence types corresponding to the classical B. thuringiensis varieties kurstaki (20 isolates), finitimus (15 isolates), morrisoni (11 isolates) and israelensis (11 isolates). Generally, there was little apparent correlation between phenotypic traits and phylogenetic position, and phenotypic variation was often substantial within a sequence type. Isolates of the sequence type corresponding to kurstaki displayed the greatest apparent phenotypic variation with 6 of the 15 phenotypic profiles represented. Despite the phenotypic variation often observed within a given sequence type, certain phenotypes appeared highly correlated with particular sequence types. Isolates with the phenotypic profiles TLUAE and LSAE were found to be exclusively associated with sequence types associated with varieties kurstaki and finitimus, respectively, and 7 of 8 TS isolates were found to be associated with the morrisoni sequence type. Our results suggest that the B. thuringiensis varieties israelensis and kurstaki represent the most abundant varieties of Bt in soil.

A Strain of Serratia marcescens (Enterobacteriaceae) with High Virulence Per Os to Larvae of a Laboratory Colony of the Corn Earworm (Lepidoptera: Noctuidae)

An unpigmented strain of the bacterium Serratia marcescens Bizio that is highly virulent when fed to larvae from a laboratory colony of the corn earworm, Helicoverpa zea (Boddie), was found as a co...

Differentiation of acidophilic thiobacilli by cell density in renografin gradients

Thiobacillus acidophilus andT. ferrooxidans were separated by centrifugation on the basis of their cell density in Renografin gradients. For both species, growth history was the largest factor influencing cell density. Density was greatest forT. acidophilus andT. ferrooxidans grown with tetrathionate, followed byT. acidophilus grown with glucose.T. ferrooxidans grown with ferrous sulfate was the least dense.T. acidophilus was isolated from iron-grownT. ferrooxidans by separation in a Renografin gradient. Plasmid patterns ofT. acidophilus andT. ferrooxidans were used to confirm the separation of the two species in mixed gradients.

Recovery of D&C Red No. 28 from Potato Leaves

D&C Red No. 28 is a photoactive red dye that is insecticidal for a number of insect species. Unlike contact insecticides, D&C Red No. 28 must be consumed to be effective. Therefore, the red dye must adhere to leaves on which the insect feeds. During a field test of insecticidal activity of the red dye against the Colorado potato beetle (Leptinotarsa decimlineata L.), we measured the recovery of the red dye from potato leaves treated at rates of 70, 210, and 350 g per ha. When the dye was applied alone, we were able to recover over 91% of the red dye at 6 h post treatment and over 30% at one day. At 2 days post treatment, the limit of detection was reached (5 ng D&C Red No. 28/cm2 leaf). In field studies, PEG 200 which improves dispersal, also improved adherence of red dye to leaves. In the laboratory, adjuvants such as PEG 200, Tween 80, and Gelva® also improved red dye adherence to leaves.

Activity of Bacillus thuringiensis Against Pryeria sinica (Lepidoptera: Zygaenidae), an Invasive Pest of Euonymus2

Pryeria sinica Moore (Lepidoptera: Zygaenidae), an invasive pest of Euonymus, is susceptible in the second instar to the Bacillus thuringiensis Berliner product Thuricide®, and to several strains isolated from other B. thuringiensis products. Third instars are also susceptible, whereas susceptibility declines in the fourth (last) instar. The susceptibility of second-instar P. sinica to B. thuringiensis is comparable to that of second-instar gypsy moth, Lymantria dispar (L.), a pest commonly controlled with B. thuringiensis. Pryeria sinica, thus, should also be controllable with B. thuringiensis.