Toxicity of Bacillus thuringiensis entomocidal protein toward cultured insect tissue

Abstract

The entomocidal protein from crystalline inclusion bodies of Bacillus thuringiensis can be bioassayed in vitro using cultured insect tissue. Larval cells of the spruce budworm, Choristoneura fumiferana, are damaged by enzyme-digested (activated) protein isolated from B. thuringiensis crystals. Measurement of toxicity is accomplished by detection of adenosine triphosphate (ATP) in treated cultures using firefly bioluminescence. The ATP content of toxin-treated tissue is inversely proportional to the amount of toxin added. Tissue cells from the spruce budworm exhibited maximum susceptibility to activated δ-endotoxin after 120 hr incubation. Probit analysis of tissue ATP response to toxin dose indicated 50% of the cells were damaged by 14.6 μg or less of toxin protein per 2 × 10 5 insect tissue cells. Activated δ-endotoxin was entomocidal to insects as well, as detemined by mortality studies with second-instar larvae of the European corn borer. Electron microscopic observations of insect tissue treated with activated δ-endotoxin protein for 60 min revealed massive outer membrane disruption and subsequent loss of cytoplasmic constituents, accompanied by swelling of the nuclear membrane.