寡核苷酸对RNA剪接的调节:作用机制和治疗意义。

IF 4 2区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Nucleic acid therapeutics Pub Date : 2022-06-01 Epub Date: 2022-02-14 DOI:10.1089/nat.2021.0067
Olga V Sergeeva, Evgeniya Y Shcherbinina, Noam Shomron, Timofei S Zatsepin
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引用次数: 7

摘要

RNA剪接的失调导致许多疾病和失调。已经开发了几种治疗方法来纠正异常的选择性剪接事件,用于治疗癌症和遗传性疾病,包括基因治疗和重定向剪接,使用小分子或剪接开关寡核苷酸(SSO)。随着核酸化学和药理学的重大进展,临床批准的单点核酸药物用于治疗脊髓性肌营养不良和杜氏肌营养不良(DMD)。在这篇综述中,我们讨论了单点登录的作用机制,重点讨论了“不太常见”的调节选择性剪接的方法,包括两部分和双功能单点登录,剪接因子的寡核苷酸诱饵,以及通过AS-NMD和NGD途径介导的单点登录介导的mRNA降解。我们简要地讨论了目前的进展和未来的展望SSO治疗罕见和超罕见疾病。
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Modulation of RNA Splicing by Oligonucleotides: Mechanisms of Action and Therapeutic Implications.

Dysregulation of RNA splicing causes many diseases and disorders. Several therapeutic approaches have been developed to correct aberrant alternative splicing events for the treatment of cancers and hereditary diseases, including gene therapy and redirecting splicing, using small molecules or splice switching oligonucleotides (SSO). Significant advances in the chemistry and pharmacology of nucleic acid have led to the development of clinically approved SSO drugs for the treatment of spinal muscular dystrophy and Duchenne muscular dystrophy (DMD). In this review, we discuss the mechanisms of SSO action with emphasis on "less common" approaches to modulate alternative splicing, including bipartite and bifunctional SSO, oligonucleotide decoys for splice factors and SSO-mediated mRNA degradation via AS-NMD and NGD pathways. We briefly discuss the current progress and future perspectives of SSO therapy for rare and ultrarare diseases.

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来源期刊
Nucleic acid therapeutics
Nucleic acid therapeutics BIOCHEMISTRY & MOLECULAR BIOLOGY-CHEMISTRY, MEDICINAL
CiteScore
7.60
自引率
7.50%
发文量
47
审稿时长
>12 weeks
期刊介绍: Nucleic Acid Therapeutics is the leading journal in its field focusing on cutting-edge basic research, therapeutic applications, and drug development using nucleic acids or related compounds to alter gene expression. The Journal examines many new approaches for using nucleic acids as therapeutic agents or in modifying nucleic acids for therapeutic purposes including: oligonucleotides, gene modification, aptamers, RNA nanoparticles, and ribozymes.
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