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ROS-PIASγ 串扰通道调节 ATM 信号转导,从而在耐药肿瘤的化疗增敏过程中抵抗细胞凋亡。

ROS-PIASγ cross talk channelizes ATM signaling from resistance to apoptosis during chemosensitization of resistant tumors.

机构信息

Division of Molecular Medicine, Bose Institute, P-1/12 CIT Scheme VII M, Kolkata 700 054, India.

出版信息

Cell Death Dis. 2014 Jan 23;5(1):e1021. doi: 10.1038/cddis.2013.534.

DOI:10.1038/cddis.2013.534
PMID:24457965
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4040699/
Abstract

With the existing knowledge of ATM's role in therapeutic resistance, the present study aimed at identifying the molecular mechanisms that influence ATM to oscillate between chemoresistance and chemosensitivity. We observed that the redox status of tumors functions as a major determinant of ATM-dependent 'resistance-to-apoptosis' molecular switch. At a low reactive oxygen species (ROS) condition during genotoxic insult, the ATM/sumoylated-IKKγ interaction induced NFκB activation that resisted JNK-mediated apoptosis, whereas increasing cellular ROS restored ATM/JNK apoptotic signaling. A search for the upstream missing link revealed that high ROS induces oxidation and ubiquitin-mediated degradation of PIASγ, thereby disrupting PIASγ-IKKγ cross talk, a pre-requisite for IKKγ sumoylation and subsequent NFκB activation. Interruption in the PIASγ-mediated resistance pathway channels ATM signaling toward ATM/JNK pro-death circuitry. These in vitro results also translated to sensitive and resistant tumor allograft mouse models in which low ROS-induced resistance was over-ruled in PIASγ knockout tumors, while its overexpression inhibited high ROS-dependent apoptotic cues. Cumulatively, our findings identified an unappreciated yet critical combinatorial function of cellular ROS and PIASγ in regulating ATM-mediated chemosensitization of resistant tumors. Thus, therapeutic strategies employing ROS upregulation to inhibit PIASγ during genotoxic therapy may, in future, help to eliminate the problems of NFκB-mediated tumor drug resistance.

摘要

鉴于目前对 ATM 在治疗抵抗中的作用的了解,本研究旨在确定影响 ATM 在化学抗性和化学敏感性之间振荡的分子机制。我们观察到,肿瘤的氧化还原状态是影响 ATM 依赖性“抗凋亡”分子开关的主要决定因素。在遗传毒性损伤时的低活性氧(ROS)条件下,ATM/ SUMOylated-IKKγ 相互作用诱导 NFκB 激活,从而抵抗 JNK 介导的细胞凋亡,而增加细胞内 ROS 则恢复 ATM/JNK 凋亡信号。寻找上游缺失的环节揭示了高 ROS 诱导 PIASγ 的氧化和泛素介导的降解,从而破坏 PIASγ-IKKγ 串扰,这是 IKKγ SUMOylation 和随后的 NFκB 激活的前提。PIASγ 介导的抵抗途径的中断将 ATM 信号传导转向 ATM/JNK 促凋亡电路。这些体外结果也转化为敏感和耐药肿瘤同种异体移植小鼠模型,其中低 ROS 诱导的耐药性在 PIASγ 敲除肿瘤中被推翻,而其过表达抑制了高 ROS 依赖性凋亡信号。总之,我们的发现确定了细胞 ROS 和 PIASγ 在调节 ATM 介导的耐药肿瘤化疗增敏中的未被认识但至关重要的组合功能。因此,在遗传毒性治疗期间使用 ROS 上调来抑制 PIASγ 的治疗策略可能有助于未来消除 NFκB 介导的肿瘤药物耐药性问题。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f6f8/4040699/d74fd64088b8/cddis2013534f8.jpg
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