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鉴定和表征抑制无义介导的 RNA 衰变并抑制无义 p53 突变的小分子。

Identification and characterization of small molecules that inhibit nonsense-mediated RNA decay and suppress nonsense p53 mutations.

机构信息

Authors' Affiliations: Departments of Medicine, Biochemistry and Molecular Pharmacology; The NYU Cancer Institute, New York University School of Medicine; and Departments of Pediatrics and Cell and Biology Development, Weill Cornell School of Medicine, New York, New York.

Authors' Affiliations: Departments of Medicine, Biochemistry and Molecular Pharmacology; The NYU Cancer Institute, New York University School of Medicine; and Departments of Pediatrics and Cell and Biology Development, Weill Cornell School of Medicine, New York, New YorkAuthors' Affiliations: Departments of Medicine, Biochemistry and Molecular Pharmacology; The NYU Cancer Institute, New York University School of Medicine; and Departments of Pediatrics and Cell and Biology Development, Weill Cornell School of Medicine, New York, New YorkAuthors' Affiliations: Departments of Medicine, Biochemistry and Molecular Pharmacology; The NYU Cancer Institute, New York University School of Medicine; and Departments of Pediatrics and Cell and Biology Development, Weill Cornell School of Medicine, New York, New York

出版信息

Cancer Res. 2014 Jun 1;74(11):3104-13. doi: 10.1158/0008-5472.CAN-13-2235. Epub 2014 Mar 24.

DOI:10.1158/0008-5472.CAN-13-2235
PMID:24662918
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4040335/
Abstract

Many of the gene mutations found in genetic disorders, including cancer, result in premature termination codons (PTC) and the rapid degradation of their mRNAs by nonsense-mediated RNA decay (NMD). We used virtual library screening, targeting a pocket in the SMG7 protein, a key component of the NMD mechanism, to identify compounds that disrupt the SMG7-UPF1 complex and inhibit NMD. Several of these compounds upregulated NMD-targeted mRNAs at nanomolar concentrations, with minimal toxicity in cell-based assays. As expected, pharmacologic NMD inhibition disrupted SMG7-UPF1 interactions. When used in cells with PTC-mutated p53, pharmacologic NMD inhibition combined with a PTC "read-through" drug led to restoration of full-length p53 protein, upregulation of p53 downstream transcripts, and cell death. These studies serve as proof-of-concept that pharmacologic NMD inhibitors can restore mRNA integrity in the presence of PTC and can be used as part of a strategy to restore full-length protein in a variety of genetic diseases.

摘要

许多遗传疾病(包括癌症)中的基因突变会导致提前终止密码子(PTC)的产生,并通过无意义介导的 RNA 降解(NMD)导致其 mRNA 的快速降解。我们利用虚拟文库筛选,针对 NMD 机制中的关键组成部分 SMG7 蛋白的一个口袋,来识别能够破坏 SMG7-UPF1 复合物并抑制 NMD 的化合物。这些化合物中的几种在纳摩尔浓度下即可上调 NMD 靶向的 mRNA,在基于细胞的测定中几乎没有毒性。正如预期的那样,药理学 NMD 抑制会破坏 SMG7-UPF1 相互作用。当在携带 PTC 突变 p53 的细胞中使用时,药理学 NMD 抑制与 PTC“通读”药物联合使用可导致全长 p53 蛋白的恢复、p53 下游转录物的上调和细胞死亡。这些研究证明了药理学 NMD 抑制剂可以在存在 PTC 的情况下恢复 mRNA 的完整性,并可作为恢复各种遗传疾病中全长蛋白质的策略的一部分。

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