Abstract

Aphids exhibit wing polyphenism (winged or wingless) for adaption to predictable or temporally heterogeneous environmental changes; however, the underlying mechanism is still unclear. This morphological change could be stimulated by high aphid density, which in turn could affect octopaminergic signaling in aphids. Octopamine is a neurotransmitter synthesized in insects that can modify their physiological metabolism, locomotion, and other behaviors. We designed experiments to determine whether octopamine functions in wing formation of the pea aphid, Acyrthosiphon pisum (Harris). We determined gene expression of tyramine β-hydroxylase (TβH), a key enzyme in octopamine synthesis at different developmental stages, in different body parts, and in different densities of aphids. We also used TβH RNAi, octopamine receptor agonists (octopamine and synephrine), and an antagonist (mianserin) to modify octopaminergic signaling. We found that transcription of TβH was related to aphid density, which affected the proportion of winged offspring. By manually modifying the mother's octopaminergic signaling, TβH expression was suppressed, and TβH (enzyme) activity decreased. The proportion of winged offspring was also affected. Our results showed that octopamine could be a link in the wing determination system, as well as environmental stimulation. The RNAi results showed that the decrease of TβH expression increased aphid's reproduction; however, the decrease of TβH expression declined the numbers of winged-offspring producers, but did not affect the proportion of winged nymphs produced by the winged-offspring producer. In conclusion, the decline in the proportion of winged daughters in the next generation was caused by the decline of winged nymph producers.

Highlights

  • The pea aphid, Acyrthosiphon pisum (Harris), shows polyphenism in winged and wingless morphs (Braendle et al, 2006)

  • Expression of the key enzyme octopamine tyramine β-hydroxylase (TβH) differed in different morphs and different developmental stages, and TβH expression varied in the wingless A. pisum adults that were exposed to different densities

  • It was shown that TβH expression could be suppressed by TβH dsRNA and the suppression lasted for more than 3 days

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Summary

Introduction

The pea aphid, Acyrthosiphon pisum (Harris), shows polyphenism in winged (alatae) and wingless (apterae) morphs (Braendle et al, 2006). Density, in particular, its effects on tactile stimulation and nutrition (host plant quality), is considered to be the key factor influencing the production of winged or wingless daughters (Braendle et al, 2006; Brisson, 2010). Increasing aphid density triggers wing formation in their offspring in many aphid species, which could be caused by an increased tactile stimulation among individuals under high density (Lees, 1967; Sutherland, 1969). Host plant quality or nutrition is considered an important stimulus for winged aphid production; the connection between nutrition and winged offspring formation is still unclear. It has been shown that their natural enemies, ants (mutualism), and aphid endosymbionts could affect production of winged offspring (Johnson, 1966; Sutherland and Mittler, 1971; Wratten, 1977)

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