Induction of antifreeze protein production by juvenile hormone in larvae of the beetle,Dendroides canadensis

Summary Larvae of the beetleDendroides canadensis accumulate protein antifreezes during the winter.D. canadensis which were collected in the early fall, prior to the initiation of cold hardening processes, were treated with either 3.3 or 6.6 g juvenile hormone I topically in acetone and maintained for 21 days under normally non-inductive acclimation conditions (16 light/8 dark, 20 °C). Hormone treated animals significantly elevated the levels of antifreeze protein in their hemolymph compared to those of acetone treated and untreated controls or animals measured on the day of collection.D. canadensis treated with the anti-JH compound precocene II (P2) in acetone for 24 h at a concentration of 20 g/cm² (a dose below LD₅₀ for behavioral survival) and then maintained under acclimation conditions conducive to antifreeze protein production (8 light/16 dark, 20 °C) for 2 weeks failed to elevate levels of antifreeze. Acetone treated control animals accumulated a significant concentration of antifreeze protein.D. canadensis were also treated with 20 and 150 g/cm² P2 (a dose below the LD₅₀ for gross survival) followed by acclimation to short (8 h) photoperiod at 10 °C. All animals receiving the higher P2 dosage failed to elevate antifreezes while only 42.9% of the individuals treated with the lower dosage initiated antifreeze protein production. In contrast, over 80% of untreated and 70% of acetone treated controls responded to these inductive acclimation conditions by elevating antifreeze concentrations.These results indicate that juvenile hormone participates in the seasonal control of antifreeze protein production inDendroides canadensis. Since this species does not enter a diapause state prior to or throughout the winter this is the first evidence establishing a direct hormonal mechanism involved with insect cold hardiness.