Ushering in the era of tRNA medicines.

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-09-12 DOI:10.1016/j.jbc.2023.105246

Theonie Anastassiadis, Caroline Köhrer

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引用次数: 1

Abstract

Long viewed as an intermediary in protein translation, there is a growing awareness that tRNAs are capable of myriad other biological functions linked to human health and disease. These emerging roles could be tapped to leverage tRNAs as diagnostic biomarkers, therapeutic targets, or even as novel medicines. Furthermore, the growing array of tRNA-derived fragments, which modulate an increasingly broad spectrum of cellular pathways, is expanding this opportunity. Together, these molecules offer drug developers the chance to modulate the impact of mutations and to alter cell homeostasis. Moreover, because a single therapeutic tRNA can facilitate readthrough of a genetic mutation shared across multiple genes, such medicines afford the opportunity to define patient populations not based on their clinical presentation or mutated gene but rather on the mutation itself. This approach could potentially transform the treatment of patients with rare and ultrarare diseases. In this review, we explore the diverse biology of tRNA and its fragments, examining the past and present challenges to provide a comprehensive understanding of the molecules and their therapeutic potential.

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进入tRNA药物时代。

长期以来，tRNA被视为蛋白质翻译的中介，人们越来越意识到tRNA能够发挥与人类健康和疾病相关的无数其他生物功能。这些新兴的作用可以用来利用tRNA作为诊断生物标志物、治疗靶点，甚至作为新药。此外，越来越多的tRNA衍生片段正在扩大这一机会，这些片段调节着越来越广泛的细胞途径。这些分子共同为药物开发人员提供了调节突变影响和改变细胞稳态的机会。此外，由于单一的治疗性tRNA可以促进多个基因共享的基因突变的读取，因此这些药物提供了一个机会，可以不是根据患者的临床表现或突变基因，而是根据突变本身来定义患者群体。这种方法可能会改变罕见病和超罕见病患者的治疗方法。在这篇综述中，我们探索了tRNA及其片段的不同生物学，研究了过去和现在的挑战，以全面了解这些分子及其治疗潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Journal of Biological Chemistry

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