顺铂靶向的HMGB盒因子UBF的缺失选择性地诱导转化细胞中不依赖p53的凋亡性死亡。

Depletion of the cisplatin targeted HMGB-box factor UBF selectively induces p53-independent apoptotic death in transformed cells.

作者信息

Hamdane Nourdine, Herdman Chelsea, Mars Jean-Clement, Stefanovsky Victor, Tremblay Michel G, Moss Tom

机构信息

Laboratory of Growth and Development, St-Patrick Research Group in Basic Oncology, Cancer Division of the Quebec University Hospital Research Centre, Québec, QC, Canada.

Department of Molecular Biology, Medical Biochemistry and Pathology, Faculty of Medicine, Laval University, Québec, QC, Canada.

出版信息

Oncotarget. 2015 Sep 29;6(29):27519-36. doi: 10.18632/oncotarget.4823.

DOI:10.18632/oncotarget.4823

PMID:26317157

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4695006/

Abstract

Cisplatin-DNA adducts act as strong decoys for the Upstream Binding Factor UBF (UBTF) and have been shown to inhibit transcription of the ribosomal RNA genes by RNA polymerase I. However, it is unclear if this plays a significant role in the chemotherapeutic activity of cis- or carboplatin. We find that cisplatin in fact induces a very rapid displacement of UBF from the ribosomal RNA genes and strong inhibition of ribosomal RNA synthesis, consistent with this being an important factor in its cytotoxicity. Using conditional gene deletion, we recently showed that UBF is an essential factor for transcription of the ribosomal RNA genes and for ribosome biogenesis. We now show that loss of UBF arrests cell proliferation and induces fully penetrant, rapid and synchronous apoptosis, as well as nuclear disruption and cell death, specifically in cells subjected to oncogenic stress. Apoptosis is not affected by homozygous deletion of the p53 gene and occurs equally in cells transformed by SV40 T antigens, by Myc or by a combination of Ras & Myc oncogenes. The data strongly argue that inhibition of UBF function is a major factor in the cytotoxicity of cisplatin. Hence, drug targeting of UBF may be a preferable approach to the use of the highly toxic platins in cancer therapy.

摘要

顺铂 - DNA加合物可作为上游结合因子UBF（上游结合因子）的强诱饵，并且已证明其可抑制RNA聚合酶I对核糖体RNA基因的转录。然而，尚不清楚这是否在顺铂或卡铂的化疗活性中起重要作用。我们发现，顺铂实际上会导致UBF从核糖体RNA基因上非常快速地解离，并强烈抑制核糖体RNA合成，这与UBF是其细胞毒性的重要因素一致。利用条件性基因缺失，我们最近表明UBF是核糖体RNA基因转录和核糖体生物发生的必需因子。我们现在表明，UBF的缺失会阻止细胞增殖，并诱导完全显性、快速且同步的细胞凋亡，以及核破裂和细胞死亡，特别是在受到致癌应激的细胞中。细胞凋亡不受p53基因纯合缺失的影响，并且在由SV40 T抗原、Myc或Ras与Myc癌基因组合转化的细胞中同样发生。这些数据有力地表明，抑制UBF功能是顺铂细胞毒性的主要因素。因此，靶向UBF的药物可能是在癌症治疗中使用高毒性铂类药物的更优方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fe0d/4695006/9435e5132162/oncotarget-06-27519-g001.jpg

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顺铂靶向的HMGB盒因子UBF的缺失选择性地诱导转化细胞中不依赖p53的凋亡性死亡。

Depletion of the cisplatin targeted HMGB-box factor UBF selectively induces p53-independent apoptotic death in transformed cells.

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