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

Abstract

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.