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Non-canonical translation in cancer: significance and therapeutic potential of non-canonical ORFs, m6A-modification, and circular RNAs

Xiaoyi Deng, Yanxun V. Yu, Youngnam N. Jin

2024Cell Death Discovery17 citationsDOIOpen Access PDF

Abstract

Abstract Translation is a decoding process that synthesizes proteins from RNA, typically mRNA. The conventional translation process consists of four stages: initiation, elongation, termination, and ribosome recycling. Precise control over the translation mechanism is crucial, as dysregulation in this process is often linked to human diseases such as cancer. Recent discoveries have unveiled translation mechanisms that extend beyond typical well-characterized components like the m 7 G cap, poly(A)-tail, or translation factors like eIFs. These mechanisms instead utilize atypical elements, such as non-canonical ORF, m 6 A-modification, and circular RNA, as key components for protein synthesis. Collectively, these mechanisms are classified as non-canonical translations. It is increasingly clear that non-canonical translation mechanisms significantly impact the various regulatory pathways of cancer, including proliferation, tumorigenicity, and the behavior of cancer stem cells. This review explores the involvement of a variety of non-canonical translation mechanisms in cancer biology and provides insights into potential therapeutic strategies for cancer treatment.

Topics & Concepts

Translation (biology)Non canonicalBiologyORFSProtein biosynthesisCancerRNAMessenger RNAInternal ribosome entry siteComputational biologyRibosomeGeneticsCell biologyOpen reading frameGenePeptide sequenceRNA modifications and cancerCancer-related molecular mechanisms researchRNA and protein synthesis mechanisms
Non-canonical translation in cancer: significance and therapeutic potential of non-canonical ORFs, m6A-modification, and circular RNAs | Litcius