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.