Trehalose plays a crucial role in the diapause process of many insects, serving as an energy source and a stress protectant. Trehalose accumulation has been reported in diapause pupae of Antheraea pernyi; however, trehalose metabolic regulatory mechanisms associated with diapause termination remain unclear. Here, we showed that the enhanced trehalose catabolism was associated with an increase in endogenous 20-hydroxyecdysone (20E) in hemolymph of A. pernyi pupae during their diapause termination and posttermination period. Injection of 20E increased the mRNA level of trehalase 1A (ApTre-1A) and trehalase 2 (ApTre-2) of A. pernyi diapause pupae in a dose-dependent manner but did not affect the mRNA level of trehalase 1B (ApTre-1B). Meanwhile, exogenous 20E increased the enzyme activities of soluble and membrane-bound trehalase, leading to a decline in hemolymph trehalose. Conversely, the expression of ApTre-1A and ApTre-2 were down-regulated after the ecdysone receptor gene (ApEcRB1) was silenced by RNA interference or by injection of an ecdysone receptor antagonist cucurbitacin B (CucB), which inhibits the 20E pathway. Moreover, CucB treatment delayed adult emergence, which suggests that ApEcRB1 might be involved in regulating pupal-adult development of A. pernyi by mediating ApTre-1A and ApTre-2 expressions. This study provides an overview of the changes in the expression and activity of different trehalase enzymes in A. pernyi in response to 20E, confirming the important role of 20E in controlling trehalose catabolism during A. pernyi diapause termination and posttermination period.
Keywords: 20-hydroxyecdysone; diapause termination; ecdysone receptor; posttermination; trehalase.
© The Author(s) 2020. Published by Oxford University Press on behalf of Entomological Society of America.