Abstract
The parasitic mite Varroa destructor devastates honey bee (Apis mellifera) colonies around the world. Entering a brood cell shortly before capping, the Varroa mother feeds on the honey bee larvae. The hormones 20‐hydroxyecdysone (20E) and juvenile hormone (JH), acquired from the host, have been considered to play a key role in initiating Varroa's reproductive cycle. This study focuses on differential expression of the genes involved in the biosynthesis of JH and ecdysone at six time points during the first 30 hr after cell capping in both drone and worker larvae of A. mellifera. This time frame, covering the conclusion of the honey bee brood cell invasion and the start of Varroa's ovogenesis, is critical to the successful initiation of a reproductive cycle. Our findings support a later activation of the ecdysteroid cascade in honey bee drones compared to worker larvae, which could account for the increased egg production of Varroa in A. mellifera drone cells. The JH pathway was generally downregulated confirming its activity is antagonistic to the ecdysteroid pathway during the larva development. Nevertheless, the genes involved in JH synthesis revealed an increased expression in drones. The upregulation of jhamt gene involved in methyl farnesoate (MF) synthesis came into attention since the MF is not only a precursor of JH but it is also an insect pheromone in its own right as well as JH‐like hormone in Acari. This could indicate a possible kairomone effect of MF for attracting the mites into the drone brood cells, along with its potential involvement in ovogenesis after the cell capping, stimulating Varroa's initiation of egg laying.
Highlights
Varroa destructor represents the most serious threat to the western honey bee Apis mellifera colonies in almost every biogeographic region on earth (Dietemann et al, 2013; Neumann & Carreck, 2010; Steinhauer et al, 2018)
This study focuses on differential expression of the genes involved in the biosynthesis of juvenile hormone (JH) and ecdysone at six time points during the first 30 hr after cell capping in both drone and worker larvae of A. mellifera
All the genes in the ecdysteroid and JH biosynthesis pathways considered for this study showed significant changes in Differential gene expression (DGE) analysis with adjusted p < 0.05
Summary
Varroa destructor represents the most serious threat to the western honey bee Apis mellifera colonies in almost every biogeographic region on earth (Dietemann et al, 2013; Neumann & Carreck, 2010; Steinhauer et al, 2018). Vitellogenesis, only occurs after the Varroa mother begins feeding on the pupa (Steiner et al, 1994, 1995) These fundamental steps in Varroa's reproduction take place during the LS1 stage of honey bee larvae (Cabrera Cordon et al, 2013), which experiences sudden changing titers of Juvenile hormone (JH) and ecdysteroids (Hartfelder & Engels, 1998). By involving a transcriptomic approach, this study investigates the biochemical interplay between the JH and ecdysteroid pathways during the larval spinning stage while attempting to elucidate their role in Varroa's reproductive cycle. The differential fecundity of Varroa between worker and drone pupae in A. mellifera, combined with prior knowledge of Varroa's life history, can aid in the identification of genes linked to Varroa's reproductive success
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