Extracellular symbiont colonizes insect during embryo development.

IF 5.1 Q1 ECOLOGY ISME communications Pub Date : 2024-01-20 eCollection Date: 2024-01-01 DOI:10.1093/ismeco/ycae005
Miguel Ángel González Porras, Inès Pons, Marleny García-Lozano, Shounak Jagdale, Christiane Emmerich, Benjamin Weiss, Hassan Salem
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Abstract

Insects typically acquire their beneficial microbes early in development. Endosymbionts housed intracellularly are commonly integrated during oogenesis or embryogenesis, whereas extracellular microbes are only known to be acquired after hatching by immature instars such as larvae or nymphs. Here, however, we report on an extracellular symbiont that colonizes its host during embryo development. Tortoise beetles (Chrysomelidae: Cassidinae) host their digestive bacterial symbiont Stammera extracellularly within foregut symbiotic organs and in ovary-associated glands to ensure its vertical transmission. We outline the initial stages of symbiont colonization and observe that although the foregut symbiotic organs develop 3 days prior to larval emergence, they remain empty until the final 24 h of embryo development. Infection by Stammera occurs during that timeframe and prior to hatching. By experimentally manipulating symbiont availability to embryos in the egg, we describe a 12-h developmental window governing colonization by Stammera. Symbiotic organs form normally in aposymbiotic larvae, demonstrating that these Stammera-bearing structures develop autonomously. In adults, the foregut symbiotic organs are already colonized following metamorphosis and host a stable Stammera population to facilitate folivory. The ovary-associated glands, however, initially lack Stammera. Symbiont abundance subsequently increases within these transmission organs, thereby ensuring sufficient titers at the onset of oviposition ~29 days following metamorphosis. Collectively, our findings reveal that Stammera colonization precedes larval emergence, where its proliferation is eventually decoupled in adult beetles to match the nutritional and reproductive requirements of its host.

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细胞外共生体在昆虫胚胎发育过程中定植。
昆虫通常在发育早期就能获得有益微生物。细胞内的内生共生体通常在卵生或胚胎发育过程中整合,而细胞外的微生物只在幼虫或若虫等未成熟阶段孵化后才获得。然而,我们在这里报告了一种在胚胎发育过程中定植于宿主的胞外共生体。龟甲虫(龟甲科:Cassidinae)将其消化细菌共生体Stammera寄生在前肠共生器官和卵巢相关腺体的细胞外,以确保其垂直传播。我们概述了共生体定殖的初始阶段,并观察到尽管前肠共生器官在幼虫出壳前 3 天就已发育,但直到胚胎发育的最后 24 小时,这些共生器官仍然是空的。Stammera 感染就发生在这段时间和孵化之前。通过实验操纵卵中胚胎的共生体可用性,我们描述了 Stammera 定殖的 12 小时发育窗口。共生器官在非共生幼虫体内正常形成,这表明这些带有Stammera的结构是自主发育的。在成虫体内,前肠共生器官在变态后已经定殖,并寄居着稳定的姬蛙种群,以促进食叶。然而,卵巢相关腺体最初缺乏 Stammera。随后,这些传播器官中的共生体数量会增加,从而确保在变态后约 29 天开始产卵时有足够的滴度。总之,我们的研究结果表明,Stammera在幼虫萌发前就已经定殖,其增殖最终在成虫体内脱钩,以满足宿主的营养和繁殖要求。
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