Regulation of mRNA Translation During Cellular Stress and Apoptosis

细胞应激和细胞凋亡过程中 mRNA 翻译的调节

• 批准号: RGPIN-2017-05463
• 负责人: Thakor, Nehalkumar
• 金额: $ 1.89万
• 依托单位: University of Lethbridge
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=681644
• 关键词: Regulation; mRNA; Translation; During; Cellular

The process of gene expression is tightly regulated at various levels including transcriptional, translational and post-translational steps. The regulation of gene expression at the translational level allows cells to rapidly reprogram protein output in response to stress stimuli. During stress conditions, global mRNA translation (canonical translation) is reduced due to modification of key eukaryotic translation initiation factors (eIFs). However, the alternative means of translation initiation (non-canonical translation) allow production of proteins that are required to manage stress conditions. For example, the production of both pro-survival and pro-death proteins is regulated via non-canonical translation mechanisms. Thus, the non-canonical translation is considered to play a central role during cellular stress. The long-term goal of my research program is to understand how non-canonical translation impacts the balance between cellular homeostasis and cell death during stress conditions. *** Internal ribosome entry site (IRES)-mediated translation is one of the validated non-canonical translation initiation mechanisms that operates under stress conditions. The production of many proteins that affect cell death is regulated by an IRES-dependent mechanism. Extensive evidence suggests that IRES-mediated translation of cellular mRNAs greatly relies on IRES trans-acting factors (ITAFs). However, the mechanisms of cellular IRESes and ITAFs during expression of stress-related proteins are poorly defined. In Objective 1 of this proposal, I will investigate the mechanism of IRES- and ITAFs-mediated translation of cellular mRNAs during stress conditions. *** Upstream open reading frame (uORF)-dependent translation initiation is another non-canonical translation initiation mechanism used under stress conditions. Key proteins, which play critical roles in cell cycle regulation and cell death, are translationally regulated by the uORF-dependent mechanism. It remains unknown if eIFs play a role in cell cycle regulation and cell death by modulating translation of uORFs-containing mRNAs. In Objective 2, I will define the role of one eIF (eIF5B) for uORF-dependent translation in cell cycle and cell death.*** My research program will provide significant insight into the process of mRNA translation. The knowledge generated will be applicable to the molecular biology research areas of development, differentiation, and metamorphosis. Moreover, this proposed study will provide clues toward understanding the relevance of dysregulated mRNA translation in various physiological disorders such as cancer, and Alzheimer's disease. My research program will provide state-of-the-art skills to my trainees in cellular and molecular biology as well as biochemistry research areas and prepare them for employment in academia, public sector, and the growing RNA-based industry.

基因表达过程在转录、翻译和翻译后的各个层面受到严格调控。基因表达在翻译水平上的调控允许细胞在应激刺激下快速重编程蛋白质输出。在逆境条件下，由于关键的真核生物翻译起始因子（eIFs）的修饰，全局mRNA翻译（规范翻译）减少。然而，翻译起始的另一种方法（非规范翻译）允许产生管理应激条件所需的蛋白质。例如，促生存和促死亡蛋白的产生都是通过非规范翻译机制调节的。因此，非规范翻译被认为在细胞应激过程中起着核心作用。我的研究计划的长期目标是了解在应激条件下非规范翻译如何影响细胞稳态和细胞死亡之间的平衡。***内部核糖体进入位点（IRES）介导的翻译是在应激条件下运作的非规范翻译起始机制之一。许多影响细胞死亡的蛋白质的产生受到ires依赖机制的调节。大量证据表明，IRES介导的细胞mrna翻译在很大程度上依赖于IRES反式作用因子（ITAFs）。然而，细胞IRESes和ITAFs在应激相关蛋白表达过程中的机制尚不明确。在本提案的目标1中，我将研究应激条件下IRES和itafs介导的细胞mrna翻译机制。***依赖于上游开放阅读框（uORF）的翻译启动是另一种在压力条件下使用的非规范翻译启动机制。在细胞周期调控和细胞死亡中起关键作用的关键蛋白受uorf依赖机制的翻译调控。目前尚不清楚eif是否通过调节含有uorfs的mrna的翻译而在细胞周期调节和细胞死亡中发挥作用。在目标2中，我将定义一种eIF （eIF5B）在细胞周期和细胞死亡中依赖于uorf的翻译的作用。***我的研究项目将对mRNA翻译过程提供重要的见解。所产生的知识将适用于分子生物学研究领域的发展，分化，和变态。此外，本研究将为理解mRNA翻译失调在各种生理疾病（如癌症和阿尔茨海默病）中的相关性提供线索。我的研究项目将为我的学员在细胞和分子生物学以及生物化学研究领域提供最先进的技能，并为他们在学术界、公共部门和不断发展的rna行业的就业做好准备。