UMR1078 INSERM, Université de Brest, Génétique Génomique Fonctionnelle et Biotechnologies, 22 avenue Camille Desmoulins, 29200, Brest, France.
Sir William Dunn School of Pathology, University of Oxford, Oxford, England.
Mol Biol Rep. 2020 Apr;47(4):3031-3040. doi: 10.1007/s11033-020-05375-w. Epub 2020 Mar 21.
We previously reported a 40-transcripts signature marking the normal mucosa to colorectal adenocarcinoma transition. Eight of these mRNAs also showed splicing alterations, including a specific intron 3 retention in tissue metalloprotease inhibitor I (TIMP1), which decreased during the early steps of colorectal cancer progression. To decipher the mechanism of intron 3 retention/splicing, we first searched for putative RNA binding protein binding sites onto the TIMP1 sequence. We identified potential serine arginine rich splicing factor 1 (SRSF1) and heterogeneous nuclear RiboNucleoProtein A1 (hnRNPA1) binding sites at the end of intron 3 and the beginning of exon 4, respectively. RNA immunoprecipitation showed that hnRNPA1, but not SRSF1 could bind to the corresponding region in TIMP1 pre-mRNA in live cells. Furthermore, using a TIMP1-based ex vivo minigene approach, together with a plasmon resonance in vitro RNA binding assay, we confirmed that hnRNPA1 could indeed bind to wild type TIMP1 exon 4 pre-mRNA and control TMP1 intron 3 splicing, the interaction being abolished in presence of a mutant sequence that disrupted this site. These results indicated that hnRNPA1, upon binding to TIMP1 exon 4, was a positive regulator of intron 3 splicing. We propose that this TIMP1-intron 3 + transcript belongs to the class of nuclear transcripts with "detained" introns, an abundant molecular class, including in cancer.
我们之前报道了一个 40 个转录本的标志,标志着正常黏膜到结直肠腺癌的转变。其中 8 个 mRNA 也显示出剪接改变,包括组织金属蛋白酶抑制剂 I(TIMP1)中的特定内含子 3 保留,这种保留在结直肠癌进展的早期阶段减少。为了解释内含子 3 保留/剪接的机制,我们首先在 TIMP1 序列上搜索可能的 RNA 结合蛋白结合位点。我们在内含子 3 的末端和外显子 4 的开始处分别鉴定出潜在的丝氨酸精氨酸丰富剪接因子 1(SRSF1)和异质核核糖核蛋白 A1(hnRNPA1)结合位点。RNA 免疫沉淀显示,hnRNPA1 而不是 SRSF1 可以在活细胞中与 TIMP1 前体 mRNA 的相应区域结合。此外,使用基于 TIMP1 的体外 minigene 方法,结合体外等离子体共振 RNA 结合测定,我们证实 hnRNPA1 确实可以与野生型 TIMP1 外显子 4 前体 mRNA 结合,并控制 TIMP1 内含子 3 剪接,该相互作用在存在破坏该位点的突变序列时被废除。这些结果表明,hnRNPA1 结合到 TIMP1 外显子 4 上后,是内含子 3 剪接的正调节剂。我们提出,这种 TIMP1-内含子 3+转录本属于具有“滞留”内含子的核转录本类别,这是一种丰富的分子类别,包括在癌症中。
