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Inhibition of nucleolar transcription by oxaliplatin involves ATM/ATR kinase signaling

奥沙利铂 激酶 抄写(语言学) 细胞生物学 信号转导 生物 转录因子 化学 癌症 结直肠癌 生物化学 遗传学 基因 语言学 哲学
作者
Misha Nechay,Danyang Wang,Ralph E. Kleiner
出处
期刊:Cell chemical biology [Elsevier BV]
卷期号:30 (8): 906-919.e4 被引量:21
标识
DOI:10.1016/j.chembiol.2023.06.010
摘要

•Oxaliplatin specifically inhibits RNA Pol I and disrupts nucleolar morphology •Oxaliplatin induces n-DDR factor recruitment in the absence of nucleolar DNA damage •Inhibition of nucleolar transcription by oxaliplatin involves ATM and ATR signaling •NBS1 is not required for nucleolar RNA Pol I inhibition by oxaliplatin Platinum (Pt) compounds are an important class of anti-cancer therapeutics, but outstanding questions remain regarding their mechanism of action. Here, we demonstrate that oxaliplatin, a Pt drug used to treat colorectal cancer, inhibits rRNA transcription through ATM and ATR signaling, and induces DNA damage and nucleolar disruption. We show that oxaliplatin causes nucleolar accumulation of the nucleolar DNA damage response proteins (n-DDR) NBS1 and TOPBP1; however transcriptional inhibition does not depend upon NBS1 or TOPBP1, nor does oxaliplatin induce substantial amounts of nucleolar DNA damage, distinguishing the nucleolar response from previously characterized n-DDR pathways. Taken together, our work indicates that oxaliplatin induces a distinct ATM and ATR signaling pathway that functions to inhibit Pol I transcription in the absence of direct nucleolar DNA damage, demonstrating how nucleolar stress and transcriptional silencing can be linked to DNA damage signaling and highlighting an important mechanism of Pt drug cytotoxicity. Platinum (Pt) compounds are an important class of anti-cancer therapeutics, but outstanding questions remain regarding their mechanism of action. Here, we demonstrate that oxaliplatin, a Pt drug used to treat colorectal cancer, inhibits rRNA transcription through ATM and ATR signaling, and induces DNA damage and nucleolar disruption. We show that oxaliplatin causes nucleolar accumulation of the nucleolar DNA damage response proteins (n-DDR) NBS1 and TOPBP1; however transcriptional inhibition does not depend upon NBS1 or TOPBP1, nor does oxaliplatin induce substantial amounts of nucleolar DNA damage, distinguishing the nucleolar response from previously characterized n-DDR pathways. Taken together, our work indicates that oxaliplatin induces a distinct ATM and ATR signaling pathway that functions to inhibit Pol I transcription in the absence of direct nucleolar DNA damage, demonstrating how nucleolar stress and transcriptional silencing can be linked to DNA damage signaling and highlighting an important mechanism of Pt drug cytotoxicity.
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