RNA interference of eclosion hormone gene reveals its roles in the control of ecdysis behavior in Heortia vitessoides Moore.

Eclosion hormone (EH) is an important neuropeptide that regulates growth and development. This study predicted the EH gene (HvEH) of Heortia vitessoides Moore (Lepidoptera: Crambidae) from the transcriptome database and its expression patterns were determined using quantitative real-time polymerase chain reaction. HvEH was expressed in all developmental stages and especially in the head area. RNA interference-mediated silencing of HvEH (2 µg/individual) with double-stranded HvEH RNA (dsHvEH) was achieved within 48 hr. Abnormal phenotypes appeared in the pupa and adult stages. dsHvEH injection suppressed pupation and eclosion rates. HvEH expression increased upon treatment with 20-hydroxyecdysone but decreased at extreme temperatures. These results suggest that HvEH plays an essential role in ecdysis and wing formation in H. vitessoides.

Cloning, Expression Analysis, 20-Hydroxyecdysone Induction, and RNA Interference Study of Autophagy-Related Gene 8 from Heortia vitessoides Moore.

Autophagy is a highly conserved and regulated process in eukaryotic cells and remodels cytoplasm, recovers essential nutrients, and disposes of unwanted cytoplasmic components. Autophagy-related gene (ATG) 8, identified in Heortia vitessoides Moore, which is an oligophagous pest of Aquilaria sinensis (Lour.), was characterized (HvATG8). Multiple sequence alignment showed that HvATG8 possesses highly conserved domain structures. Stage- and tissue-specific expressions indicated that HvATG8 is highly expressed in prepupal, pupal, and adult stages and in the midgut of larvae and abdomen of adults. Lack of function of HvATG8 by RNA interference resulted in a significant decrease in survival rate and an increase in abnormal or nonviable phenotypes in H. vitessoides. Transition rate from larval to pupal stages was 33.0% and from pupal to adult stages was 15.0% after injection. Reduction of ATG8 expression reduced survival of H. vitessoides. Therefore, HvATG8 possibly plays a key role in normal growth stage of H. vitessoides. HvATG8 suppression downregulates HvATG3 expression, suggesting that the two genes are interconnected. Further, HvATG8 expression increased by 20-hydroxyecdysone treatment, starvation, and extreme temperature exposure. Starvation also altered expression of other ATGs in H. vitessoide. This study may be used to guide research on molecular mechanisms of autophagy in insects.