Feminising Wolbachia disrupt Armadillidium vulgare insulin-like signalling pathway

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2021-07-27 DOI:10.1111/cmi.13381
Benjamin Herran, Camille Houdelet, Maryline Raimond, Carine Delaunay, Nicolas Cerveau, Catherine Debenest, Pierre Grève, Joanne Bertaux
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引用次数: 2

Abstract

The endosymbiont Wolbachia feminises male isopods by making them refractory to the insulin-like masculinising hormone, which shunts the autocrine development of the androgenic glands. It was, therefore, proposed that Wolbachia silences the IR receptors, either by preventing their expression or by inactivating them. We describe here the two IR paralogs of Armadillidium vulgare. They displayed a conventional structure and belonged to a family widespread among isopods. Av-IR1 displayed an ubiquist expression, whereas the expression of Av-IR2 was restricted to the gonads. Both were constitutively expressed in males and females and throughout development. However, upon silencing, altered gland physiology and gene expression therein suggested antagonistic roles for Av-IR1 (androinhibiting) and Av-IR2 (androstimulating). They may function in tandem with regulating neurohormones, as a conditional platform that conveys insulin signalling. Wolbachia infection did not alter their expression patterns: leaving the IRs unscathed, the bacteria would suppress the secretion of the neurohormones, thus inducing body-wide IR deactivation and feminisation. Adult males injected with Wolbachia acquired an intersexed physiology. Their phenotypes and gene expressions mirrored the silencing of Av-IR1 only, suggesting that imperfect feminisation stems from a flawed invasion of the androstimulating centre, whereas in fully feminised males invasion would be complete in early juveniles.

Take Away

  • Two antagonistic Insulin Receptors were characterised in Armadillidium vulgare.
  • The IRs were involved in androstimulating and androinhibiting functions.
  • Wolbachia-induced feminisation did not prevent the expression of the IRs.
  • Imperfectly feminised intersexes phenocopied the silencing of Av-IR1 only.
  • Wolbachia would deactivate the IRs by suppressing neurosecretory co-factors.

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雌性化沃尔巴克氏体破坏寻常犰狳胰岛素样信号通路
内共生体沃尔巴克氏体通过使雄性等足类动物对胰岛素样雄性化激素产生抗性而使其雌性化,这种激素会阻碍雄激素腺体的自分泌发育。因此,有人提出沃尔巴克氏体通过阻止IR受体的表达或使其失活来使其沉默。我们在这里描述了普通犰狳的两个红外类似物。它们显示出一种传统的结构,属于等足类动物中广泛分布的一个家族。Av-IR1普遍表达,而Av-IR2的表达仅限于性腺。这两种基因在男性和女性以及整个发育过程中都有组成性表达。然而,沉默后,腺体生理和基因表达的改变表明Av-IR1(雄激素抑制)和Av-IR2(雄激素刺激)具有拮抗作用。它们可能与调节神经激素一起起作用,作为传递胰岛素信号的条件平台。沃尔巴克氏体感染并没有改变它们的表达模式:在不损害IR的情况下,细菌会抑制神经激素的分泌,从而导致全身IR失活和女性化。注射沃尔巴克氏体的成年雄性获得了雌雄同体的生理机能。它们的表型和基因表达只反映了Av-IR1的沉默,这表明不完美的雌性化源于对雄性刺激中心的有缺陷的入侵,而完全雌性化的雄性在幼年时就完成了入侵。在普通犰狳中发现了两种拮抗胰岛素受体。ir参与促雄和抑雄功能。沃尔巴克氏体诱导的雌性化并未阻止ir的表达。不完全女性化的雌雄间性体只表现出Av-IR1的沉默。沃尔巴克氏菌会通过抑制神经分泌辅助因子使ir失活。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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