Morphological and molecular effects of 20-hydroxyecdysone and its agonist tebufenozide on CF-203, a midgut-derived cell line from the spruce budworm, Choristoneura fumiferana.

The morphological and molecular responses of a midgut-derived cell line of the spruce budworm, Choristoneura fumiferana, to 20-hydroxyecdysone (20E) and the nonsteroidal ecdysone agonist, tebufenozide (RH-5992), were investigated. The cells responded to these compounds by clumping, generating filamentous extensions, increased mortality and expression of the transcription factor, Choristoneura hormone receptor 3 (CHR3). This cell line can be used as a model system to study the mode of action of ecdysone and its agonists. With subsequent passaging in ecdysteroid-containing medium, the degree of clumping increased and the clumping could not be reversed by subculturing in ecdysteroid-free medium. Cell numbers of the adapted cell lines in 20E and RH-5992 containing media were not significantly decreased, compared to the control, but both cell lines accumulated less (14)C-labeled RH-5992 and lost the capability of expressing CHR3 in response to these compounds. Taken together, the cell lines appeared to develop a mechanism to adapt to the toxic effects of these compounds. Arch. Insect Biochem. Physiol. 55:68-78, 2004.

Pathogenicity of Choristoneura fumiferana nucleopolyhedrovirus propagated in vitro at different incubation temperatures.

To optimize the in vitro production of Choristoneura fumiferana nucleopolyhedrovirus (CfMNPV) as a potential microbial pest control agent, the pathogenicity of occlusion bodies (OBs) produced in two cell lines at three incubation temperatures was determined by bioassay. A plaque-purified isolate of CfMNPV was amplified in permissive C. fumiferana cell lines, FPMI-CF-203 and FPMI-CF-2C1, and incubated at 22, 24, and 28 degrees C. Occlusion bodies propagated in FPMI-CF-203 cells at 28 degrees C were significantly larger (17.5 microm(3)) and more pathogenic (LD(50) = 27; LD(95) = 185, where LD(50) and LD(95) are doses required to kill 50 and 95% of the test larvae, respectively) than those produced in either of the cell lines at any of the incubation temperatures tested. Increased temperatures yielded larger OBs from both cell lines. The pathogenicity of OBs propagated in the FPMI-CF-203 cell line increased with incubation temperature, whereas that of OBs produced in FPMI-CF-2C1 cells decreased. Comparison of the pathogenicity of OBs, whether naturally occurring or genetically modified, should be standardized by cell line and incubation temperature used for propagation. Production efficiency decreased with increasing incubation temperature for each cell line. Lower incubation temperatures used for propagation, and standardization of the titer of viral inoculum, should be further investigated to determine the economic feasibility of the in vitro production of CfMNPV as a microbial pest control agent.