拼接调节因子 Sam68 与一种新型外显子拼接沉默子结合，并在脊髓性肌萎缩症中的 SMN2 可变拼接中发挥作用。

The splicing regulator Sam68 binds to a novel exonic splicing silencer and functions in SMN2 alternative splicing in spinal muscular atrophy.

机构信息

Department of Public Health and Cell Biology, University of Rome Tor Vergata, Rome, Italy.

出版信息

EMBO J. 2010 Apr 7;29(7):1235-47. doi: 10.1038/emboj.2010.19. Epub 2010 Feb 25.

DOI:10.1038/emboj.2010.19

PMID:20186123

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2857462/

Abstract

Spinal muscular atrophy (SMA) is a neurodegenerative disease caused by loss of motor neurons in patients with null mutations in the SMN1 gene. An almost identical SMN2 gene is unable to compensate for this deficiency because a single C-to-T transition at position +6 in exon-7 causes skipping of the exon by a mechanism not yet fully elucidated. We observed that the C-to-T transition in SMN2 creates a putative binding site for the RNA-binding protein Sam68. RNA pull-down assays and UV-crosslink experiments showed that Sam68 binds to this sequence. In vivo splicing assays showed that Sam68 triggers SMN2 exon-7 skipping. Moreover, mutations in the Sam68-binding site of SMN2 or in the RNA-binding domain of Sam68 completely abrogated its effect on exon-7 skipping. Retroviral infection of dominant-negative mutants of Sam68 that interfere with its RNA-binding activity, or with its binding to the splicing repressor hnRNP A1, enhanced exon-7 inclusion in endogenous SMN2 and rescued SMN protein expression in fibroblasts of SMA patients. Our results thus indicate that Sam68 is a novel crucial regulator of SMN2 splicing.

摘要

脊髓性肌萎缩症（SMA）是一种神经退行性疾病，由 SMN1 基因的无效突变导致运动神经元丧失引起。几乎完全相同的 SMN2 基因无法弥补这种缺陷，因为在 7 号外显子的+6 位发生的单个 C 到 T 的转换导致外显子跳过，其机制尚未完全阐明。我们观察到 SMN2 中的 C 到 T 转换为 RNA 结合蛋白 Sam68 创建了一个假定的结合位点。RNA 下拉测定和 UV 交联实验表明 Sam68 结合到该序列。体内剪接测定表明 Sam68 触发 SMN2 外显子 7 的跳跃。此外，SMN2 中 Sam68 结合位点或 Sam68 的 RNA 结合域的突变完全消除了其对外显子 7 跳跃的影响。逆转录病毒感染干扰其 RNA 结合活性或与剪接抑制剂 hnRNP A1 结合的 Sam68 显性负突变体，增强了内源性 SMN2 中外显子 7 的包含，并挽救了 SMA 患者成纤维细胞中的 SMN 蛋白表达。因此，我们的结果表明 Sam68 是 SMN2 剪接的一种新的关键调节因子。

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