在进食状态下,自噬在帮助昆虫载体 Rhodnius prolixus 在强迫飞行活动中调动 TAG 储备方面发挥着关键作用

Samara Santos-Araújo, Fabio Gomes, L. F. Carvalho-Kelly, J. Meyer‐Fernandes, Katia C. Gondim, Isabela Ramos
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引用次数: 0

摘要

自噬是一种由高度保守的自噬相关基因(Atgs)介导的细胞降解途径。在我们之前的研究中,我们发现在饥饿条件下抑制自噬会导致南美锥虫病昆虫媒介 Rhodnius prolixus 发生显著的生理变化,这些变化包括三酰甘油(TAG)滞留在脂肪体中、存活率降低以及运动和飞行能力受损。众所周知,自噬可对各种刺激做出反应,因此我们在此进一步研究了自噬在喂食血液后的喂养状态中的作用。有趣的是,自噬体存在的主要指标--Atg8的脂化形式(Atg8-II)在喂食后的前两周与消化完成后的第三周相比,自噬激活率高20%-50%。尽管自噬体的检测率升高,但在血液消化过程中,RNAi介导的RpAtg6和RpAtg8抑制并未引起脂肪体或飞行肌肉中TAG或蛋白质水平的实质性变化。我们还发现,敲除 RpAtg6 和 RpAtg8 会导致参与脂质代谢的重要酶的基因表达发生适度变化,并且不会显著刺激伴侣蛋白 BiP 和 PDI 的表达,而这两种蛋白是未折叠蛋白反应的主要效应物。这些发现表明,自噬功能受损会导致脂质代谢和一般细胞蛋白稳态出现轻微紊乱。然而,在敲除 RpAtg6 和 RpAtg8 后,昆虫在强迫飞行过程中飞行直至力竭的能力降低了 60%。这种变化伴随着脂肪体和飞行肌肉中 TAG 和蛋白质的增加以及 ATP 水平的降低,表明消化过程中(即在喂养条件下)的自噬是维持高性能活动的必要条件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In the fed state, autophagy plays a crucial role in assisting the insect vector Rhodnius prolixus mobilize TAG reserves under forced flight activity
Autophagy is a cellular degradation pathway mediated by highly conserved autophagy-related genes (Atgs). In our previous work, we showed that inhibiting autophagy under starvation conditions leads to significant physiological changes in the insect vector of Chagas disease Rhodnius prolixus; these changes include triacylglycerol (TAG) retention in the fat body, reduced survival and impaired locomotion and flight capabilities. Herein, because it is known that autophagy can be modulated in response to various stimuli, we further investigated the role of autophagy in the fed state, following blood feeding. Interestingly, the primary indicator for the presence of autophagosomes, the lipidated form of Atg8 (Atg8-II), displayed 20%–50% higher autophagic activation in the first 2 weeks after feeding compared to the third week when digestion was complete. Despite the elevated detection of autophagosomes, RNAi-mediated suppression of RpAtg6 and RpAtg8 did not cause substantial changes in TAG or protein levels in the fat body or the flight muscle during blood digestion. We also found that knockdown of RpAtg6 and RpAtg8 led to modest modulations in the gene expression of essential enzymes involved in lipid metabolism and did not significantly stimulate the expression of the chaperones BiP and PDI, which are the main effectors of the unfolded protein response. These findings indicate that impaired autophagy leads to slight disturbances in lipid metabolism and general cell proteostasis. However, the ability of insects to fly during forced flight until exhaustion was reduced by 60% after knockdown of RpAtg6 and RpAtg8. This change was accompanied by TAG and protein increases as well as decreased ATP levels in the fat body and flight muscle, indicating that autophagy during digestion, i.e., under fed conditions, is necessary to sustain high-performance activity.
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