基因毒素对应激激酶（SAPK/JNK）的延迟激活需要DNA修复蛋白DNA-PKcs和CSB。

Late activation of stress kinases (SAPK/JNK) by genotoxins requires the DNA repair proteins DNA-PKcs and CSB.

作者信息

Fritz Gerhard, Kaina Bernd

机构信息

Department of Toxicology, University of Mainz, D-55131 Mainz, Germany.

出版信息

Mol Biol Cell. 2006 Feb;17(2):851-61. doi: 10.1091/mbc.e05-07-0606. Epub 2005 Nov 30.

DOI:10.1091/mbc.e05-07-0606

PMID:16319174

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1356594/

Abstract

Although genotoxic agents are powerful inducers of stress kinases (SAPK/JNK), the contribution of DNA damage itself to this response is unknown. Therefore, SAPK/JNK activation of cells harboring specific defects in DNA damage-recognition mechanisms was studied. Dual phosphorylation of SAPK/JNK by the genotoxin methyl methanesulfonate (MMS) occurred in two waves. The early response (< or = 2 h after exposure) was similar in cells knockout for ATM, PARP, p53, and CSB or defective in DNA-PK(cs) compared with wild-type cells. The late response however (> or = 4 h), was drastically reduced in DNA-PK(cs) and Cockayne's syndrome B (CSB)-deficient cells. Similar results were obtained with human cells lacking DNA-PK(cs) and CSB. Activation of SAPK/JNK by MMS was not affected upon inhibition of base excision repair (BER), indicating base damage itself does not signal to SAPK/JNK. Because SAPK/JNK activation was attenuated in nongrowing cells, DNA replication-dependent processing of lesions, involving DNA-PK(cs) and CSB, appears to be required. DNA-PK(cs) coprecipitates with SEK1/MKK4 and SAPK/JNK, supporting a role of DNA-PK(cs) in SAPK/JNK activation. In this process, Rho GTPases are involved since inhibition of Rho impairs MMS-induced signaling to SAPK/JNK. The data show that sensing of DNA damage by DNA-PK(cs) and CSB causes a delayed SEK1/MKK4-mediated dual phosphorylation of SAPK/JNK.

摘要

尽管基因毒性剂是应激激酶（SAPK/JNK）的强效诱导剂，但DNA损伤本身对这种反应的作用尚不清楚。因此，研究了在DNA损伤识别机制中存在特定缺陷的细胞的SAPK/JNK激活情况。基因毒素甲磺酸甲酯（MMS）对SAPK/JNK的双重磷酸化分两个阶段进行。早期反应（暴露后≤2小时）在ATM、PARP、p53和CSB基因敲除的细胞或DNA-PK（cs）有缺陷的细胞中与野生型细胞相似。然而，晚期反应（≥4小时）在DNA-PK（cs）和科凯恩综合征B（CSB）缺陷的细胞中显著降低。在缺乏DNA-PK（cs）和CSB的人类细胞中也获得了类似结果。抑制碱基切除修复（BER）后，MMS对SAPK/JNK的激活不受影响，这表明碱基损伤本身不会向SAPK/JNK发出信号。由于在非生长细胞中SAPK/JNK的激活减弱，因此似乎需要涉及DNA-PK（cs）和CSB的损伤的DNA复制依赖性处理。DNA-PK（cs）与SEK1/MKK4和SAPK/JNK共沉淀，支持DNA-PK（cs）在SAPK/JNK激活中的作用。在这个过程中，Rho GTPases参与其中，因为抑制Rho会损害MMS诱导的向SAPK/JNK的信号传导。数据表明，DNA-PK（cs）和CSB对DNA损伤的感知导致SEK1/MKK4介导的SAPK/JNK的延迟双重磷酸化。

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