Bryce-Smith Sam, Brown Anna-Leigh, Mehta Puja R, Mattedi Francesca, Mikheenko Alla, Barattucci Simone, Zanovello Matteo, Dattilo Dario, Yome Matthew, Hill Sarah E, Qi Yue A, Wilkins Oscar G, Sun Kai, Ryadnov Eugeni, Wan Yixuan, Vargas Jose Norberto S, Birsa Nicol, Raj Towfique, Humphrey Jack, Keuss Matthew, Ward Michael, Secrier Maria, Fratta Pietro
UCL Queen Square Motor Neuron Disease Centre, Department of Neuromuscular Diseases, UCL Queen Square Institute of Neurology, UCL, London, UK.
National Institute of Neurological Disorders and Stroke, NIH, Bethesda, MD, USA.
bioRxiv. 2024 Jan 23:2024.01.22.576625. doi: 10.1101/2024.01.22.576625.
Nuclear depletion and cytoplasmic aggregation of the RNA-binding protein TDP-43 is the hallmark of ALS, occurring in over 97% of cases. A key consequence of TDP-43 nuclear loss is the de-repression of cryptic exons. Whilst TDP-43 regulated cryptic splicing is increasingly well catalogued, cryptic alternative polyadenylation (APA) events, which define the 3' end of last exons, have been largely overlooked, especially when not associated with novel upstream splice junctions. We developed a novel bioinformatic approach to reliably identify distinct APA event types: alternative last exons (ALE), 3'UTR extensions (3'Ext) and intronic polyadenylation (IPA) events. We identified novel neuronal cryptic APA sites induced by TDP-43 loss of function by systematically applying our pipeline to a compendium of publicly available and in house datasets. We find that TDP-43 binding sites and target motifs are enriched at these cryptic events and that TDP-43 can have both repressive and enhancing action on APA. Importantly, all categories of cryptic APA can also be identified in ALS and FTD post mortem brain regions with TDP-43 proteinopathy underlining their potential disease relevance. RNA-seq and Ribo-seq analyses indicate that distinct cryptic APA categories have different downstream effects on transcript and translation. Intriguingly, cryptic 3'Exts occur in multiple transcription factors, such as , and and lead to an increase in wild-type protein levels and function. Finally, we show that an increase in RNA stability leading to a higher cytoplasmic localisation underlies these observations. In summary, we demonstrate that TDP-43 nuclear depletion induces a novel category of cryptic RNA processing events and we expand the palette of TDP-43 loss consequences by showing this can also lead to an increase in normal protein translation.
RNA结合蛋白TDP-43的核内缺失和胞质聚集是肌萎缩侧索硬化症(ALS)的标志,超过97%的病例中都会出现这种情况。TDP-43核内缺失的一个关键后果是隐蔽外显子的去抑制。虽然TDP-43调控的隐蔽剪接越来越多地被编目,但定义最后一个外显子3'末端的隐蔽可变聚腺苷酸化(APA)事件在很大程度上被忽视了,尤其是当它们与新的上游剪接位点无关时。我们开发了一种新颖的生物信息学方法,以可靠地识别不同的APA事件类型:可变最后外显子(ALE)、3'非翻译区延伸(3'Ext)和内含子聚腺苷酸化(IPA)事件。通过将我们的流程系统地应用于公开可用和内部数据集的汇编,我们鉴定出了由TDP-43功能丧失诱导的新型神经元隐蔽APA位点。我们发现TDP-43结合位点和靶基序在这些隐蔽事件中富集,并且TDP-43对APA可以具有抑制和增强作用。重要的是,在患有TDP-43蛋白病的ALS和额颞叶痴呆(FTD)尸检脑区中也可以识别出所有类型的隐蔽APA,这突出了它们与疾病的潜在相关性。RNA测序和核糖体测序分析表明,不同类型的隐蔽APA对转录本和翻译具有不同的下游影响。有趣的是,隐蔽3'Exts出现在多种转录因子中,如 、 和 ,并导致野生型蛋白水平和功能增加。最后,我们表明RNA稳定性增加导致更高的胞质定位是这些观察结果的基础。总之,我们证明TDP-43核内缺失诱导了一类新型的隐蔽RNA加工事件,并且通过表明这也可导致正常蛋白翻译增加,我们扩展了TDP-43缺失后果的范围。
