The Wnt pathway regulates wing morph determination in Acyrthosiphon pisum

IF 3.2 2区 农林科学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Ping Zhou, Xin Zong, Shuo Yan, Junzheng Zhang, Dan Wang, Jie Shen
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引用次数: 1

Abstract

Wing dimorphism occurs in insects as a survival strategy to adapt to environmental changes. In response to environmental cues, mother aphids transmit signals to their offspring, and the offspring either emerge as winged adults or develop as wingless adults with degeneration of the wing primordia in the early instar stage. However, how the wing morph is determined in the early instar stage is still unclear. Here, we established a surgical sampling method to obtain precise wing primordium tissues for transcriptome analysis. We identified Wnt as a regulator of wing determination in the early second instar stage in the pea aphid. Inhibiting Wnt signaling via knockdown of Wnt2, Wnt11b, the Wnt receptor-encoding gene fz2 or the downstream targets vg and omb resulted in a decreased proportion of winged aphids. Activation of Wnt signaling via knockdown of miR-8, an inhibitor of the Wnt/Wg pathway, led to an increased proportion of winged aphids. Furthermore, the wing primordia of wingless nymphs underwent apoptosis in the early second instar, and cell death was activated by knockdown of fz2 under the wing-inducing condition. These results indicate that the developmental plasticity of aphid wings is modulated by the intrinsic Wnt pathway in response to environmental challenges.

Abstract Image

Wnt通路调控棘球虹吸管翅膀形态的决定
昆虫的翅膀二形现象是一种适应环境变化的生存策略。作为对环境信号的回应,蚜虫母亲向其后代传递信号,后代要么发育为有翼成虫,要么发育为无翼成虫,在早期阶段翅膀原基退化。然而,翅膀的形态是如何在早期阶段决定的,目前还不清楚。在这里,我们建立了一种外科采样方法,以获得精确的翅膀原基组织进行转录组分析。我们发现Wnt是豌豆蚜虫二龄早期翅膀决定的调节因子。通过敲低Wnt2、Wnt11b、Wnt受体编码基因fz2或下游靶标vg和omb来抑制Wnt信号传导,导致翅蚜比例下降。通过敲低Wnt/Wg通路抑制剂miR-8激活Wnt信号,导致有翅蚜虫比例增加。此外,无翅若虫的翅膀原基在二龄早期发生凋亡,在诱导翅的条件下,fz2基因的敲低激活了细胞死亡。这些结果表明,蚜虫翅膀的发育可塑性受到内在Wnt通路的调节,以应对环境挑战。
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来源期刊
CiteScore
7.40
自引率
5.30%
发文量
105
审稿时长
40 days
期刊介绍: This international journal publishes original contributions and mini-reviews in the fields of insect biochemistry and insect molecular biology. Main areas of interest are neurochemistry, hormone and pheromone biochemistry, enzymes and metabolism, hormone action and gene regulation, gene characterization and structure, pharmacology, immunology and cell and tissue culture. Papers on the biochemistry and molecular biology of other groups of arthropods are published if of general interest to the readership. Technique papers will be considered for publication if they significantly advance the field of insect biochemistry and molecular biology in the opinion of the Editors and Editorial Board.
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