氧化应激诱导的 YAP1 表达受 NCE102、CDA2 和 BCS1 的调控。

Sarah Takallou, Maryam Hajikarimlou, Mustafa Al-gafari, Jiashu Wang, Sasi Kumar Jagadeesan, Thomas David Daniel Kazmirchuk, Christina Arnoczki, Houman Moteshareie, Kamaledin B. Said, Taha Azad, Martin Holcik, Bahram Samanfar, Myron Smith, Ashkan Golshani
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引用次数: 0

摘要

在压力条件下保持细胞平衡对生物体的整体健康至关重要。活性氧(ROS)是最强大的细胞应激源之一,可破坏内部氧化还原平衡,导致氧化应激。ROS 水平升高会严重影响生物大分子,并与一系列病理生理状况有关。为应对氧化应激,酵母激活蛋白-1(Yap1p)会发生翻译后修饰,导致其核积累。YAP1 通过促进大量抗氧化基因的转录,在氧化解毒过程中发挥着关键作用。在这项研究中,我们发现了 NCE102、CDA2 和 BCS1 在过氧化氢(H2O2)诱导的氧化应激反应中 YAP1 表达方面以前未曾描述过的功能。这些候选基因的缺失突变株对 H2O2 的敏感性增加。我们的后续调查将这些基因的活性与翻译水平上的 YAP1 表达联系起来。在氧化应激作用下,全基因帽依赖性翻译受到抑制,促使 YAP1 等应激反应基因采用替代翻译模式。我们提供的证据表明,NCE102、CDA2 和 BCS1 有助于 YAP1 在氧化应激下进行帽子依赖性翻译。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Oxidative stress-induced YAP1 expression is regulated by NCE102, CDA2, and BCS1

Oxidative stress-induced YAP1 expression is regulated by NCE102, CDA2, and BCS1

Maintaining cellular homeostasis in the face of stress conditions is vital for the overall well-being of an organism. Reactive oxygen species (ROS) are among the most potent cellular stressors and can disrupt the internal redox balance, giving rise to oxidative stress. Elevated levels of ROS can severely affect biomolecules and have been associated with a range of pathophysiological conditions. In response to oxidative stress, yeast activator protein-1 (Yap1p) undergoes post-translation modification that results in its nuclear accumulation. YAP1 has a key role in oxidative detoxification by promoting transcription of numerous antioxidant genes. In this study, we identified previously undescribed functions for NCE102, CDA2, and BCS1 in YAP1 expression in response to oxidative stress induced by hydrogen peroxide (H2O2). Deletion mutant strains for these candidates demonstrated increased sensitivity to H2O2. Our follow-up investigation linked the activity of these genes to YAP1 expression at the level of translation. Under oxidative stress, global cap-dependent translation is inhibited, prompting stress-responsive genes like YAP1 to employ alternative modes of translation. We provide evidence that NCE102, CDA2, and BCS1 contribute to cap-independent translation of YAP1 under oxidative stress.

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