全蛋白质组的 4-羟基-2-壬烯醛氧化应激特征在海洋入侵鳞栉水母(Botryllus schlosseri)中的应用

Dietmar Kültz, Alison M. Gardell, Anthony DeTomaso, Greg Stoney, Baruch Rinkevich, Andy Qarri, Jens Hamar
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摘要

在人为气候变化的条件下,Boytryllus schlosseri 是一种外来入侵的海洋脊索动物。我们发现,B. schlosseri表达的蛋白质组中含有异常高水平的与4-羟基-2-壬烯醛(HNE)加成的蛋白质。HNE 是氧化应激导致的一种突出的翻译后修饰。尽管已有大量研究对海洋生物的氧化应激进行了评估,但此前还未在任何海洋物种中测定过 HNE 蛋白质修饰。利用 LC/MS 蛋白质组学鉴定了 B. schlosseri 野外种群和实验室种群中的 1052 个 HNE 加合物蛋白质。确定了 1849 个修饰位点的加成氨基酸残基,其中 1195 个位点的氨基酸定位得分最高。大多数 HNE 修饰位点是活性较低的赖氨酸(而不是活性较高的半胱氨酸)。大多数位点的 HNE 发生率都很高。这些观察结果表明,B. schlosseri 经历并耐受高水平的细胞内活性氧,从而导致大量脂质过氧化。HNE 加合物在线粒体、蛋白稳态和细胞骨架功能中显示出丰富的作用。基于这些结果,我们认为氧化还原信号在 B. schlosseri 的发育和生理过程中有助于调节能量代谢、胚泡形成周期、氧化猝灭防御和细胞骨架动态。我们构建了一个 DIA 检测库,以量化 60 个蛋白质中 72 个位点的 HNE 加成,这些位点代表了一个功能可辨的氧化应激生物指标整体网络。我们的结论是,这种环极鳞栉水母体内大量的 HNE 蛋白吸附表明它具有很强的氧化应激耐受性,这也是它能在多种环境中扩展活动范围的原因之一。
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Proteome-wide 4-hydroxy-2-nonenal signature of oxidative stress in the marine invasive tunicate Botryllus schlosseri
The colonial ascidian Boytryllus schlosseri is an invasive marine chordate that thrives under conditions of anthropogenic climate change. We show that the B. schlosseri expressed proteome contains unusually high levels of proteins that are adducted with 4-hydroxy-2-nonenal (HNE). HNE represents a prominent posttranslational modification resulting from oxidative stress. Although numerous studies have assessed oxidative stress in marine organisms HNE protein modification has not previously been determined in any marine species. LC/MS proteomics was used to identify 1052 HNE adducted proteins in B. schlosseri field and laboratory populations. Adducted amino acid residues were ascertained for 1849 modified sites, of which 1195 had a maximum amino acid localization score. Most HNE modifications were at less reactive lysines (rather than more reactive cysteines). HNE prevelance on most sites was high. These observations suggest that B. schlosseri experiences and tolerates high intracellular reactive oxygen species levels, resulting in substantial lipid peroxidation. HNE adducted B. schlosseri proteins show enrichment in mitochondrial, proteostasis, and cytoskeletal functions. Based on these results we propose that redox signaling contributes to regulating energy metabolism, the blastogenic cycle, oxidative burst defenses, and cytoskeleton dynamics during B. schlosseri development and physiology. A DIA assay library was constructed to quantify HNE adduction at 72 sites across 60 proteins that represent a holistic network of functionally discernable oxidative stress bioindicators. We conclude that the vast amount of HNE protein adduction in this circumpolar tunicate is indicative of high oxidative stress tolerance contributing to its range expansion into diverse environments.
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