人类核孔蛋白Tpr可保护细胞免受RNA介导的复制应激。

The human nucleoporin Tpr protects cells from RNA-mediated replication stress.

作者信息

Kosar Martin, Giannattasio Michele, Piccini Daniele, Maya-Mendoza Apolinar, García-Benítez Francisco, Bartkova Jirina, Barroso Sonia I, Gaillard Hélène, Martini Emanuele, Restuccia Umberto, Ramirez-Otero Miguel Angel, Garre Massimiliano, Verga Eleonora, Andújar-Sánchez Miguel, Maynard Scott, Hodny Zdenek, Costanzo Vincenzo, Kumar Amit, Bachi Angela, Aguilera Andrés, Bartek Jiri, Foiani Marco

机构信息

IFOM, Fondazione Istituto FIRC di Oncologia Molecolare, Milano, Italy.

Institute of Molecular Genetics of the Czech Academy of Sciences, Prague, Czech Republic.

出版信息

Nat Commun. 2021 Jun 24;12(1):3937. doi: 10.1038/s41467-021-24224-3.

DOI:10.1038/s41467-021-24224-3

PMID:34168151

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8225803/

Abstract

Although human nucleoporin Tpr is frequently deregulated in cancer, its roles are poorly understood. Here we show that Tpr depletion generates transcription-dependent replication stress, DNA breaks, and genomic instability. DNA fiber assays and electron microscopy visualization of replication intermediates show that Tpr deficient cells exhibit slow and asymmetric replication forks under replication stress. Tpr deficiency evokes enhanced levels of DNA-RNA hybrids. Additionally, complementary proteomic strategies identify a network of Tpr-interacting proteins mediating RNA processing, such as MATR3 and SUGP2, and functional experiments confirm that their depletion trigger cellular phenotypes shared with Tpr deficiency. Mechanistic studies reveal the interplay of Tpr with GANP, a component of the TREX-2 complex. The Tpr-GANP interaction is supported by their shared protein level alterations in a cohort of ovarian carcinomas. Our results reveal links between nucleoporins, DNA transcription and replication, and the existence of a network physically connecting replication forks with transcription, splicing, and mRNA export machinery.

摘要

尽管人类核孔蛋白Tpr在癌症中经常失调，但其作用却知之甚少。在此我们表明，Tpr缺失会产生转录依赖性复制应激、DNA断裂和基因组不稳定。DNA纤维分析和复制中间体的电子显微镜观察表明，Tpr缺陷细胞在复制应激下表现出缓慢且不对称的复制叉。Tpr缺陷会引发DNA-RNA杂交体水平的升高。此外，互补蛋白质组学策略鉴定出一个由介导RNA加工的Tpr相互作用蛋白组成的网络，如MATR3和SUGP2，功能实验证实它们的缺失会引发与Tpr缺陷共有的细胞表型。机制研究揭示了Tpr与TREX-2复合体的一个组分GANP之间的相互作用。Tpr与GANP的相互作用得到了一组卵巢癌中它们共同的蛋白质水平变化的支持。我们的结果揭示了核孔蛋白、DNA转录和复制之间的联系，以及存在一个将复制叉与转录、剪接和mRNA输出机制物理连接起来的网络。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7347/8225803/99ce88d6b210/41467_2021_24224_Fig1_HTML.jpg

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人类核孔蛋白Tpr可保护细胞免受RNA介导的复制应激。

The human nucleoporin Tpr protects cells from RNA-mediated replication stress.

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