压力诱导的真核生物转化调控机制

Dilawar Ahmad Mir, Zhengxin Ma, Jordan Horrocks, Aric N Rogers
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引用次数: 0

摘要

真核生物的蛋白质合成过程包含复杂的阶段,由多种机制严格调控翻译。应激状态下的翻译调控对于维持细胞平衡至关重要,它确保了对生存至关重要的重要蛋白质的准确表达。这种选择性翻译调控机制对于细胞在不利条件下的适应性和复原力不可或缺。本综述手稿探讨了选择性翻译调控所涉及的各种机制,重点关注mRNA特异性和全局性调控过程。翻译调控的关键环节包括翻译起始,这通常是一个限速步骤,涉及 eIF4F 复合物的形成和 mRNA 扭体的招募。翻译起始因子(如 eIF4E、eIF4E2 和 eIF2)通过磷酸化和与结合蛋白的相互作用进行调控,从而调节胁迫条件下的翻译效率。这篇综述还强调了通过 eIF4F 复合物和三元复合物等因子对翻译起始的控制,并强调了 eIF2{alpha} 磷酸化在应激颗粒形成和细胞应激反应中的重要性。此外,还讨论了氨基酸剥夺、mTOR 信号传导和核糖体生物发生对翻译调控和细胞应激适应的影响。了解应激过程中翻译调控的复杂机制有助于深入了解细胞适应机制和各种疾病的潜在治疗靶点,为解决与蛋白质合成调控相关的问题提供了宝贵的途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Stress-induced Eukaryotic Translational Regulatory Mechanisms
The eukaryotic protein synthesis process entails intricate stages governed by diverse mechanisms to tightly regulate translation. Translational regulation during stress is pivotal for maintaining cellular homeostasis, ensuring the accurate expression of essential proteins crucial for survival. This selective translational control mechanism is integral to cellular adaptation and resilience under adverse conditions. This review manuscript explores various mechanisms involved in selective translational regulation, focusing on mRNA-specific and global regulatory processes. Key aspects of translational control include translation initiation, which is often a rate-limiting step, and involves the formation of the eIF4F complex and recruitment of mRNA to ribosomes. Regulation of translation initiation factors, such as eIF4E, eIF4E2, and eIF2, through phosphorylation and interactions with binding proteins, modulates translation efficiency under stress conditions. This review also highlights the control of translation initiation through factors like the eIF4F complex and the ternary complex and also underscores the importance of eIF2{\alpha} phosphorylation in stress granule formation and cellular stress responses. Additionally, the impact of amino acid deprivation, mTOR signaling, and ribosome biogenesis on translation regulation and cellular adaptation to stress is also discussed. Understanding the intricate mechanisms of translational regulation during stress provides insights into cellular adaptation mechanisms and potential therapeutic targets for various diseases, offering valuable avenues for addressing conditions associated with dysregulated protein synthesis.
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