Radiation biology of a serious tropical pigeon pea pest, Maruca vitrata (Fabricius) (Lepidoptera: Crambidae) and potential of radiation mediated 'inherited (F1) sterility technique' for the pest suppression.

Purpose: The impact of gamma radiation on the reproductive biology of the spotted pod borer, Maruca vitrata (Fabr.) (Lepidoptera: Crambidae) was ascertained to explore the potential of the radio-genetic 'Inherited (F1) Sterility' technique (modified Sterile Insect technique) to control this serious pigeonpea pest in India.Materials and methods: Radio-biological investigations involved dose-response studies, at a range of 100-250 Gy, with respect to radiation induced adverse effects on reproductive behavior in substerilized parent (P1) moths, inheritance of sterility and associated metamorphic disruption in F1 progeny. The reproductive competence of P1 male moths and their F1 progeny was evaluated by ascertaining the survival, mating success, sperm transfer and amphimixis of gametes from irradiated male parents and their F1 progeny. Daily ovipositional and egg fertility profile were evaluated as crucial parameters for simulation modeling for this radio-genetic technique.Results: Radiation-induced check in insemination rate and sterility in P1 and F1 generation had a positive correlation with gamma dose. The metamorphic adverse effects in F1 progeny of substerilized P1 males were influenced by P1 irradiation. A higher dose of 200 Gy that resulted in 21.1% fertility in parent cross (P1♂x N♀) could form only 14.4% F1 adults that were all malformed. A gamma dose of 150 Gy (administered to P1 males) could be considered as a suitable dose for F1 sterility, that induced 57.4% control of reproduction in parent generation, followed by 72-85% control of reproduction in F1 progeny involved in three crosses -F1♂xN♀, N♂xF1♀, F1♂xF1♀. Daily fertility profile of the eggs laid indicated a marked reduction on 4th day onwards during the ovipositional span in P1 and F1 generation. High degree of mating competitiveness value (CV) was noticed for 150 Gy irradiated male P1 moths (0.78-0.93), and their F1 male progeny (0.70-0.89), released in different sex ratios in the field cages having untreated moths. Reduced relative damage to the pigeon pea plants by the released F1 progeny in the field cages was observed in comparison to control.Conclusion: The present study indicated the potential use of a dose of 150 Gy to apply the 'F1 sterility' technique for parabiological suppression of the pigeon pea pod borer. The present findings and reproductive performance of the irradiated moths in F2 generation along with other compatible biorational pest control tactics (that are in progress), might help in formulating an effective integrated pest management module, including the F1 sterility technique as an integral component.

Radioresistant Sf9 insect cells display efficient antioxidant defence against high dose γ-radiation.

PURPOSE: To investigate the effect of gamma radiation-induced alterations in antioxidant defence of radioresistant Sf9 insect cells. MATERIALS AND METHODS: Sf9 cells were irradiated at doses ranging from 0.5-200 Gy. Lipid peroxidation and protein carbonylation levels were observed at 4 h post-exposure along with reduced glutathione/oxidized glutathione (GSH/GSSG) profile as well as specific activities of redox active enzymes superoxide dismutase (SOD), catalase, ascorbate peroxidase (APOx), and glutathione reductase (GR). Human brain malignant glioma (BMG-1) cells were used for comparing radiation response of mammalian cells. RESULTS: Sf9 cells displayed significantly less radiation-induced reactive oxygen/nitrogen species (ROS/RNS) generation, protein carbonylation and growth inhibition as compared to mammalian cells. Sf9 cells have higher basal APOx (∼4-fold), catalase (∼1.7-fold), SOD (∼1.3-fold) activity and GSH level (∼2.2-fold) compared to mammalian cells. A radiation dose-dependent increase in SOD, Catalase and APOx activity was found in Sf9 cells at least up to 100 Gy dose, while maximum activity in mammalian cells was achieved by 10 Gy. CONCLUSION: The present study suggests that Lepidopteran insect cells carry a stronger antioxidant system that protects against radiation-induced macromolecular damage, growth inhibition and cell death.

Effect of gamma radiation on Phenoloxidase pathway, antioxidant defense mechanism in Helicoverpa armigera (Lepidoptera: Noctuidae) and its implication in inherited sterility towards pest suppression.

PURPOSE: To investigate age-correlated radiosensitivity in highly radioresistant lepidopteran pest, Helicoverpa armigera, upon exposure to ionizing radiation and to examine the irradiation impact on stress-molecular responses in F1 (first-filial) progeny of irradiated (100 Gy) male moths in relation to its reproductive behavior. MATERIALS AND METHODS: Efficacy of sub-lethal gamma radiation was evaluated on two markedly apart ontogenic stages, neonates and adult moths. Differential growth, reproductive behavior and stress-indicating molecular responses were examined upto F1 progeny of sub-sterilized moths. Free-radical scavenging enzymes, superoxide dismutase (SOD), catalase (CAT) and Phenoloxidase cascade enzymes, pro-phenoloxidase (PPO), its activating enzyme (PPAE) were studied in irradiated and irradiated plus microbial challenge regimen (dual-stress) by Real-time RT-PCR (reverse-transcription-polymerase-chain-reaction). RESULTS: An inverse correlation of radiosensitivity with developmental age of insect was observed. F1 sterility was higher than parent sterility. F1 progeny exhibited protraction in development and decreased survival upon irradiation. Sex ratio in F1 progeny was skewed towards males. PPO, PPAE, SOD and CAT transcripts were downregulated upon neonate irradiation resulting in enhanced vulnerability of larvae to incidental microbial challenge. These transcripts were upregulated in F1 progeny of sub-sterilized male moths (100 Gy) upon dual-stress. CONCLUSIONS: Irradiation impact on stress-indicating molecular responses in F1 progeny is correlated with its reproductive performance. These observations will permit defining regimen having pragmatic viability of 'F1 sterility technique' for pest suppression. Gamma dose of 100 Gy would ensure balance between induced sterility of males and their field competitiveness. These parameters would facilitate integration of biocontrol strategy with parabiological 'Sterile Insect Release Technique'.