TDP-43 核功能丧失导致的异常剪接事件:病理生理学与前景。

IF 1.5 Q2 MEDICINE, GENERAL & INTERNAL
JMA journal Pub Date : 2024-07-16 Epub Date: 2024-06-17 DOI:10.31662/jmaj.2024-0038
Yuka Koike
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引用次数: 0

摘要

肌萎缩性脊髓侧索硬化症(ALS)和额颞叶痴呆症(FTD)是一种神经退行性疾病,具有进行性和致命性病程。它们经常合并发病,具有相同的分子谱。它们的主要病理特征是,在中枢神经系统中,RNA 结合蛋白 TDP-43 在细胞质中形成聚集,并从细胞核中消耗掉。在细胞核中,TDP-43 可调节 RNA 代谢的多个方面,包括 RNA 转录、替代剪接和 RNA 运输。抑制 RNA 处理过程中的异常剪接事件是 TDP-43 的重要功能之一。当 TDP-43 从细胞核中耗竭时,这一功能就会受损。最近出现了几个 TDP-43 的关键隐性剪接靶标,如 STMN2、UNC13A 等。UNC13A 是一个重要的 ALS/FTD 风险基因,其遗传变异(单核苷酸多态性)通过增加 TDP-43 功能障碍下隐性外显子包含的易感性而致病。此外,在健康状态下,TDP-43 具有调节其 mRNA(TARDBP mRNA)剪接的自动调节机制。本研究提供了有关 TDP-43 剪接调节功能的最新发现,并探讨了利用这些异常剪接事件作为有效生物标记物的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Abnormal Splicing Events due to Loss of Nuclear Function of TDP-43: Pathophysiology and Perspectives.

Amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD) are neurodegenerative diseases with a progressive and fatal course. They are often comorbid and share the same molecular spectrum. Their key pathological features are the formation of the aggregation of TDP-43, an RNA-binding protein, in the cytoplasm and its depletion from the nucleus in the central nervous system. In the nucleus, TDP-43 regulates several aspects of RNA metabolism, ranging from RNA transcription and alternative splicing to RNA transport. Suppressing the aberrant splicing events during RNA processing is one of the significant functions of TDP-43. This function is impaired when TDP-43 becomes depleted from the nucleus. Several critical cryptic splicing targets of TDP-43 have recently emerged, such as STMN2, UNC13A, and others. UNC13A is an important ALS/FTD risk gene, and the genetic variations, single nucleotide polymorphisms, cause disease via the increased susceptibility for cryptic exon inclusion under the TDP-43 dysfunction. Moreover, TDP-43 has an autoregulatory mechanism that regulates the splicing of its mRNA (TARDBP mRNA) in the healthy state. This study provides recent findings on the splicing regulatory function of TDP-43 and discusses the prospects of using these aberrant splicing events as efficient biomarkers.

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